SESAME – a synchrotron light source in the Middle East: an international research infrastructure in the making

SESAME (Synchrotron-light for Experimental Science and Applications in the Middle East) is an international research centre located in Jordan. The centre was established in the late 1990s with the intention to foster scientific cooperation in a region of the world that has been torn by persistent conflicts. The project is built on the idea that science can help to overcome barriers and cultural differences within the common ground of science and research. SESAME’s core ambition is to operate an international state-of-the-art synchrotron users’ facility in the north of Amman that is accessible to scientists from all of its members: Cyprus, Egypt, Iran, Israel, Pakistan, Palestine, Turkey and Jordan. Accordingly, SESAME has been often praised as a paramount example of science diplomacy. Our intention for this report was to investigate a concrete international research infrastructure with a specific science diplomacy interest. What were the enabling conditions for such a project to come into being and what keeps SESAME running? What were the challenges and obstacles? How does the composition of member states play into that? How is SESAME related to (and embedded in) the global synchrotron community, academia, researchers and political actors in the region and the world? Did the science diplomacy ambition behind the project turn out to be successful and how does it affect SESAME's future?


Introduction
SESAME is short for "Synchrotron-light for Experimental Science and Applications in the Middle East" and is the first synchrotron light source in the Middle East, out of about 60 synchrotrons worldwide.It was developed under the auspices of the United Nations Educational, Scientific and Cultural Organization (UNESCO) and is now a multinational, interdisciplinary and independent research facility located in Allan in the Balqa governorate of Jordan, northwest of the capital Amman towards the Syrian borderline.While the origins of SESAME reach back to the 1990s, the first two beamlines were operational in November 2017 (XAFS/XRF beamline) and in April 2018 (IR beamline).The research facility was opened on May 16 th , 2017 and different groups from the region have started to conduct research at the beamlines.SESAME was conceived in the late 1990s with the intention to foster scientific cooperation in a region of the world that has been torn by persistent conflicts.The project is built on the idea that science can help to overcome barriers and cultural differences within the common ground of science and research.In that regard, SESAME is an important example for use in studying the general research interests of S4D4C 1 : How can science diplomacy foster international cooperation and help to tackle global challenges?And what can we learn from the example of SESAME about inducing and making use of research infrastructures for the benefit of international relations, intercultural understanding and economic and technological development within and beyond Europe?From that point of view, SESAME classifies as an example of "science in diplomacy" when taking into account global challenges, mainly in the form of peace and intercultural understanding.Needless to say, this case implicates a good deal of "diplomacy for science" (political activities to support international scientific cooperation) on the concrete level of implementation as well.
Within the terminology of S4D4C, SESAME is considered to be an instrument driven science diplomacy case, as opposed to science driven or foreign policy driven cases.Instrument driven cases refer to science diplomacy configurations that originate in funding mechanisms, science collaborations, or infrastructures.Therefore, this study takes particular interest in the funding structures and the contribution of institutional stakeholders and in that regard especially the role of the EU in comparison to other stakeholders.At the same time, this case also demonstrates aspects of a science driven case.Science driven cases are science diplomacy configurations that originate in scientific or technological developments and as a consequence of their advancement involve and/or affect interor transnational cooperation or regulations (open science, FET [future emerging technologies] flagships, specific expertise in a field of research).SESAME's primary goal is to serve a scientific purpose in the form of a users' synchrotron facility, and in doing so it involves international actors and requires unique forms of international cooperation.By contrast, foreign policy-driven cases are finally science diplomacy configurations that depart from political intentions or concerns, usually with an international context (climate change, cyber security, and infectious diseases) and as part of that they involve scientific knowledge or advice.Therefore, the role of science in science driven cases is confined to the provision of knowledge to solve or regulate collective problems, which is not the focus of interest in this case.
Given this blending of instrument and science driven science diplomacy configurations, two aspects in particular are of relevance for the general research interest.First, since the structure has a fairly short history and is still in the development phase, the case provides the opportunity to explore the critical transition phase from vision to reality more closely.How does a project like SESAME come into being -what is crucial to master the steps from an initial idea to a research site with its own routines and sustainable procedures?Furthermore, and as part of that, we can learn about the intentions and motives behind the initiation of such a project and we can ask: How do they maybe affect the success and further evolution of the project?What are the main drivers and resources that carry such a project from the beginning to continuity and how does this change during the course of its advancement?What was the initial spark and which structures had to be developed to carry the idea into a physical reality?What conditions and circumstances might have been major challenges or obstacles?Besides this interest in the evolution of SESAME as a fairly unique science diplomacy case, it also provides us with the opportunity to learn about science diplomacy on a more conceptual level.The discussion of science diplomacy is mostly led by rather general and associative understandings of science and diplomacy 2,3 .By contrast, SESAME provides a real-world example to study those concrete interactions and practices on the social micro level that we otherwise would broadly 1 S4D4C ("Using Science for/in Diplomacy for addressing global Challenges") is a research project funded by Horizon 2020.The overall aim of S4D4C is to support current and future European science diplomacy for the benefit of European capacities, EU foreign policy goals and especially the development of solutions for global challenges.

Amendments from Version 1
The two reviewers are highly familiar with the facility that was studied.The revised version mainly incorporates the additional information or corrections they kindly provided where previous information was unspecific or incorrect.Critical statements have been verified and/or revised.Figures have been exchanged, updated and -where necessary -their resolution was improved as advised.We thank the reviewers for their valuable information, their effort and time to improve this case study.
Any further responses from the reviewers can be found at the end of the article summarize and synthesize under the label science diplomacy.Therefore, this case study is also suitable to break the conceptions of science and diplomacy within the concept down to the level of individual building bricks.SESAME is a research site designed to bring together scientists from different regions and backgrounds not only in order to conduct research, but also in order to establish contact and communication channels that would otherwise not be possible.In this sense, SESAME provides an analytical case study (in contrast to synthetic), which allows our general imagination of science as a means for peace building to be examined and dissected on the "atomic" level of social practice and communication.
Similarly, the research interest in the research infrastructures of this report is tailored to a science diplomacy perspective.It does not provide an understanding of SESAME as a technical facility as such.Therefore, it cannot do justice to the SESAME project in all its dimensions and achievements.Finally, this report is not meant to reproduce the most prominent or dominant narratives about SESAME and to prove them either right or wrong.The story of SESAME often has been told as a story of hope and promising peace building efforts in the Middle East.Yet, our due task is not to pick and choose a certain angle.Neither can we assess the "real" peace building outcomes of SESAME.There is not one single truth to be told about SESAME, there are many.The task here is to illustrate the narratives that constitute the project as a discursive and material reality, to highlight contradictions and variations and finally to work out how the external narratives may interact and impact the inner logic of the research site against the background of our specific science diplomacy research interest.In that, SESAME provides an institutionally clearly demarcated structure to study aspects of science diplomacy in a unique setting and as an example for bottom-up science diplomacy initiatives by scientists.Ultimately, we have observed immense commitment and endurance by an international group of scientists and staff from around the world to establish this research infrastructure under extraordinary conditions and to advance it into a success story.At the same time, it does not come as a surprise that the case of SESAME also absorbs and echoes the conditions and conflicts it came to address and transform 4 .

Case study background
2.1 Case description and context of the case SESAME is an intergovernmental research centre under the auspices of the United Nations Educational, Scientific and Cultural Organization (UNESCO) that runs a third-generation synchrotron radiation facility (in short: synchrotron) in Allan, Jordan 5 .SESAME is the first synchrotron in the Middle East and in an Arab country and the first synchrotron ever that was meant to be composed of modules that were shipped from and reconstructed in different countries 6 .A synchrotron is a technically highly sophisticated light source that enables the study of matter such as viruses, crystals, proteins, semiconductors, archaeological artifacts etc. Synchrotrons have become substantial, highly automatized state-of-the-art devices in order to conduct cutting-edge research in a large variety of disciplines 7 .Synchrotron radiation user facilities have decisively advanced scientific understanding in the life sciences and material sciences in the last few decades and allow for a great variety of experimental applications at different wavelengths in the electromagnetic spectrum of light (Figure 1, Figure 2).
A synchrotron is a type of particle accelerator that is built to produce very brilliant light.Synchrotrons were originally constructed for basic research in high-energy physics, but they have become important and rapidly developing experimental research devices in many disciplines.Synchrotron light is employed in many different laboratory applications (e.g.spectroscopy, microscopy, diffraction experiments) across many disciplines and research fields in the natural sciences, namely medicine, biology, material science and archaeology 8 .Synchrotron light sources are not only technically sophisticated, but costly large research infrastructures.Therefore these facilities are typically run by public, state-owned research (funding) organizations.The vast majority of the approximately 60 currently operational synchrotrons worldwide are located in industrialized countries.
The United States alone owns more than 10 synchrotron facilities (with different technical properties and applications, however), so does Japan.The biggest share of facilities worldwide rests in Europe (namely Germany, France, Switzerland, the UK, Italy, Sweden, Russia, Denmark, Netherlands and Spain; see Figure 3 9 ).Similarly, most industrialized countries have at least one synchrotron radiation user facility or have access to one, while there are very few facilities in the less technologized regions of the world (Figure 3).Namely Brazil and Taiwan started to design own synchrotrons in the late 1980s and have internationally competitive machines at the time of research (2019) 10 .They were followed by Singapore, India, 5 The location was chosen due to the fact that scientists from all other member countries could travel to Jordan without restrictions, while this was not the case for most of the other member countries. 6Interview#3 7 Owen, R., J. Juanhuix, M. Fuchs (2016): Current advances in synchrotron radiation instrumentation for MX experiments.In: Archives of Biochemistry and Biophysics, 2016, 602, pp.21-31. 8 To get a more expert impression about the functioning of synchrotrons, please refer to the various introductory material online.On SESAME specifically please refer to http://www.sesame.org.jo/sesame_2018/about-us/informationmaterial 9 The map shows the distribution of synchrotrons that run macromolecular crystallography (MX) beamlines.MX is a specific synchrotron technique that uses the X-rays spectrum and allows to study proteins and viruses in atomic detail.Facilities with MX beamlines accounts for only about half of the existing synchrotron facilities worldwide, but the map gives an idea about the distribution of operational synchrotrons worldwide.cf.Owen, R., J. Juanhuix, M. Fuchs ( 2016   Thailand and Poland, who inaugurated their own synchrotrons during the last two decades.Iran and Armenia have announced their intentions to build their own facilities but have not realized these plans so far (see grey pins in Figure 4).Turkey is currently building its first IR-FEL facility (operating in the infrared-spectrum).Finally, there is a new initiative to establish a synchrotron facility in Africa as it is the only continent that is left without such a technology so far.An AfLS (African Light Source) is under planning nowadays through the African Light Source Foundation.
Against the background of the uneven distribution of synchrotrons worldwide (Figure 3), the initiation and successful realization of SESAME as the first operational synchrotron in the Middle East is fairly exceptional.This is true, not only with regards to its location, yet even more so with regards to its member composition.Currently, the membersof SESAME are Cyprus, Egypt, Iran, Israel, Jordan, Palestine, Pakistan and Turkey, none of them possessing a synchrotron by themselves (Figure 5).SESAME has been modelled on the example of CERN mainly with regards to its founding ambition and political vision 12 .CERN is the European Organization for Nuclear Research, founded in 1954 to foster trust, international cooperation, and open up room for building mutual understanding across the borders of (formerly) conflicted parties on the common ground of scientific interest and research.Technically and scientifically, there are major and evident differences between CERN and SESAME.Most prominently, CERN is geared towards fundamental research in high-energy physics and it has become the largest particle accelerator in the world, spearheading groundbreaking research and innovation.By contrast, SESAME is designed as a synchrotron user facility that provides technical units for a still sophisticated, yet rather standardized set of experimental applications.Regarding the type of scientific use, SESAME is structurally better compared with synchrotron user facilities such as SOLEIL in France or DIAMOND Light Source in the UK than with CERN (Figure 6).However, SESAME scales to a tiny fraction of CERN (and of the other named synchrotrons SOLEIL and DIAMOND) with regards to almost every structural, financial and technical aspect (number of beamlines and experimental stations, staff, resources etc.).different traditions, political systems and beliefs, in a region where better mutual understanding is much needed." 16Additionally, the intention behind SESAME is not only to establish new links and channels of communication between Arab countries, Israel, Iran, Turkey, Cyprus, Pakistan and others on scientific grounds, but also to promote scientific excellence, education and technological development in the Middle East and therefore to represent a driving force also for the economic development in the region 17 .

Research interest and methodological approach
Synchrotrons such as SESAME are captivating technologies from a scientific point of view.They provide insight into the smallest scale of the mechanisms of life that would otherwise not be perceptible to the naked eye or other conventional laboratory instrumentation.While the focus of this report is obviously not on the technological aspect of synchrotrons, I would like to provide a general and brief understanding of the technology in the following section to give a general idea of its relevance today.However, this report is primarily interested in SESAME as an example of science diplomacy and therefore looks at the inner workings of the international research centre with the explicit ambition of using science to further intercultural understanding.On the one hand, this case is therefore theoretically demarcated by the institutional and member structure of SESAME.On the other hand, our research interest has to go beyond these institutional limits in taking a look at the more 16 SESAME(2020): SESAME Brochure; retrieved from: https://www.sesame.org.jo/sites/default/files/images/Brochures/SESAME_Brochure.pdf 17  encompassing actor network around SESAME.We look at SES-AME both as an institutional structure and ask, furthermore, how it is related to (and embedded in) the global synchrotron community, and to academia and researchers in the region and in Jordan.Which actors and/or networks have been in support of SESAME and which structures have been potentially affected by SESAME, already?How do the aspirations behind SESAME act out and are tangible for researchers in the region?What is the character of the governance system and what kind of power relations can we observe?Since SESAME has been in the process of its establishment, its institutional structure has changed and evolved only recently.As part of our interest in the actors and governance structure it seems necessary to take a closer look at the evolution of SESAME in the next section, before elaborating on the current constitution and actor relations in Section 4.
Our methodological framework is oriented by grounded theory.We have applied a threefold approach to the research for our case study.We started with desk research, taking into account a number of lengthy and rich accounts on SESAME by involved parties.These publications mainly cover the evolution of SESAME.They are provided by former Presidents or Chairs of the SESAME Council and therefore contain insights from an invaluable first-hand experience.However, those publications are few in number, while there is a growing number of articles that take an interest in SESAME as an example of science diplomacy.They usually take a journalistic perspective.There is almost no research from a social sciences perspective about the research site.
As a second line of research, we generated our own data through semi-structured interviews 18 and conversations with participants of a users meeting in Amman, Jordan.For the purpose of interviewee selection, we assembled an overview of relevant actors and stakeholder groups and identified four main groups of stakeholders: (A) Members of SESAME Council, delegates and staff at umbrella institutions and Jordan authorities (UNESCO, EU DG R&I, members of the Jordan Royal Family), (B) SESAME local staff and directorate (Director, Technical Director, Administrative Director, Scientific Director), (C) Members of Advisory Committees and experts at supporting research facilities providing expertise and host SESAME researchers for research visits (ITER etc.), (D) The group of users and participants in SESAME trainings.
We selected and approached key responsible actors in each group (senior officials, researchers with a long experience at SESAME) via e-mail or in person at the users meeting 2018.We designed our sample making sure to include at least one representative/perspective from each stakeholder group (purposive sampling).Five in-depth interviews with a duration between 1 and 2 hours have been conducted, four of them audio recorded, another could not be recorded for technical reasons but has been saved in written note.Written consent was obtained before the interviews 19 .Together with the conversations that we had with participants at the users meeting our sample included council members and committee members, the current president, the director and members of the directorate level, engineers and beamline responsible persons, scientific users, administration staff and one of the founders of SESAME.As a result, our sample includes all stakeholder groups that have been identified as relevant.Furthermore, the sample is diverse not only with respect to the functions and positions of participants, but also with respect to countries of origin of the participants reflecting the international member setup of SESAME.
Thirdly, as part of our data acquisition and in order to gain a personal impression, we have visited the facility and we have attended one of the yearly users meetings in Amman, Jordan (December 2018).This visit was documented with field notes.Furthermore, we visited the council meeting in December 2018 at the premises of UNESCO in Paris and had the chance to talk to a number of council representatives (member states and observers' status).
Our approach of data analysis was open, inductive and not primarily hypothesis driven, while we had identified and developed an awareness for possible friction points throughout the preparation phase.The coding process was mainly conducted by the corresponding author and pre-structured by the analytical framework that was developed for all case studies within the S4D4C consortium prior to the selection of case studies.The analytical framework is structured as follows: (a) A1.Governance arrangement: the formal organization of the case topic.This includes legal frameworks, rules, policy instruments, governmental strategies, official guidelines and prescribed actors.Furthermore, governance 19 Setting of data collection: All interviews have been conducted in a professional environment: either at the offices of interviewees, the conference venue or at the research facility.No one else besides the interviewers and interviewees was present during the interviews, however those interviews that were conducted in the common spaces of the conference venue could not provide a completely confidential setting. 18All interviews were conducted by Dr. Tim Flink (male) and Charlotte Rungius M.A., B.Sc. (female) both in the role of researchers in S4D4C.Both interviewers were employed at the DZHW (German Centre for Higher Education Studies and Science Research) at the time of the study.Additionally, Tim Flink was permanently associated with the Humboldt Universität zu Berlin.Both interviewers were practically experienced and had academic training in conducting interviews for the purpose of generating qualitative social research data.The role and occupation of the interviewers, the purpose of the study as part of S4D4C's aims and ambitions, the specific research interest as part of the case study and contact information (website link, e-mail addresses, in some cases the S4D4C brochure if available) were revealed and/or handed over to the interviewees before the interview in written form (informed consent sheet and S4D4C information leaflet).Contact was established through email or in person at the users meetings.In both cases the research interest as the motivation to establish contact was stated clearly.
There was no prior relationship to any of the interviewees.None of the approached participants refused to participate or dropped out.Repeat-interviews have not been conducted.The interviews did not strictly follow our interview guide in order to allow a natural conversation and information flow.Our interview guide was composed of the following six sections: I) function and responsibility at SESAME, II) biography and motivation, III) mission and impact of SESAME, IV) governance, funding and support (including the role of the EU), V) mode of operation on site, VI) outlook.
arrangements deal with the direction of implementation -i.e.top-down or bottom-up -and the structure of the arrangement, i.e. whether it resembles a hierarchical structure (where there is a clear mandate from an authority), a network structure (where processes take place in the framework of a sort of 'epistemic community') or rather a market structure (where supply/ demand of information/action comes from different and sporadic actors and emergent needs/opportunities).
(b) A2.Stakeholder landscape: the actors involved in the case topic and their attributes (i.e.interests, roles, power to influence/facilitate/block, etc.).We are also interested in how in terms of substance and procedures and through which channels/interfaces actors relate to each other, and in the challenges of interactions between different stakeholders.
(c) A3.De facto governance practices: the de facto workings of the case topic.This involves the actual mix of all formal processes and procedures and those where actors deviate from the formal governance arrangement and perform with bureaucratic discretion.Here, it is also interesting how synergetic links are made to other social or political problem fields to further actors' interests.
We were able to check some of our preliminary results and early hypothesis in conversations with different stakeholders from SESAME, e.g. during a presentation and poster session on SESAME at a networking meeting.

Ethics
The research for this article involved human participants as volunteers for social science research (through interviews).The research, in particular data collection with human subjects, has complied with the ethical standards, policies and guidelines of Horizon 2020, which have been rigorously applied.This research has not involved any severe intervention on humans.All research was conducted ensuring respect for the participants and their dignity, protecting their values, rights and interests and fair distribution of research benefits and burden.The chosen sampling was done in a way to not systematically exclude gender, political, social and cultural views and minorities from marginal backgrounds.Participation was on a voluntary basis.Written informed consent was obtained from research participants.

History and evolution
SESAME is a unique example of science diplomacy, particularly with regards to its evolution.We distinguish three phases in the evolution of SESAME: 1. the identification phase (general promotion of vision and search for support), 2. the institutionalization phase or interim phase (initiation of the institutionalization process; inauguration of the Council of SESAME; search for structural support), and 3. the maturity phase (physical realization of the research site; construction of building, installation of beamlines, the running of a synchrotron user facility).
We have based our evidence mainly on the in-depth accounts of those who have been in charge of its establishment and operation.Herwig Schopper is former Director General of CERN as well as DESY (German Electron Synchrotron) and was an integral part of the project.He provided a comprehensive description of SESAME's history 20 .Furthermore, Chris Llewllyn Smith, following Herwig Schopper as president of the SESAME Council, has similarly provided a report on the history, ambitions and the challenges in SESAME's past 21 .We have enriched this data basis on the evolution of SESAME with interviews that we conducted with staff and stakeholders.
3.1 1 st phase (1980s-1999): identification phase The evolution of SESAME can be regarded as the product of two different initiatives that have coincided 22 .On the one hand, the idea for a synchrotron light source in the Middle East dates back to the 1980s23 , when several countries started to develop an interest in designing and building national synchrotrons (Interview#3).The Pakistani physicist and Nobel Prize winner Abdus Salam first promoted the idea of an international synchrotron facility in the Middle East.Salam was an advocate for the idea of international collaboration, science and technology transfer and a general enhancement of scientific efforts.He "proposed the creation of an 'Arabian Gulf University' at Jeddah in Saudi Arabia, which included a synchrotron light source as part of the plan" 24 .But initiatives to design (national) synchrotrons e.g. in Saudi-Arabia or Bahrain did not take hold.
On the other hand, SESAME also traces back to the initiative of a few distinguished high-energy physicians from the US and Germany, namely and most importantly Herman Winick (Stanford Linear Accelerator Center [SLAC] 25 ) and Gustaf Adolf Voss (former director of DESY 26 ), who were both members of the BESSY I27 (German synchrotron in West Berlin) advisory committee in 1997.As such they learnt about the plan to shut down the facility in the 1990s in the wake of German reunification 28 .BESSY I was to be decommissioned due to the establishment of a more powerful one at a different location in Berlin-Adlershof, in what was previously East Berlin.Since it would have been too costly to maintain both facilities and since the old facility would therefore not be used anymore, Winick and Voss made the case for recycling the Berlin synchrotron BESSY I.The relevant parts of BESSY I were the 0.8 GeV second-generation storage ring and injector system 29 .
It would have been the first time ever that a synchrotron was recycled.However, initially it was not intended to ship it to the Middle East.There were plans to send it to Eastern Europe, to Poland or Romania (Interview#1 and Interview#4).
Winick and Voss 30  At a meeting of this group in the following year, more concrete plans were made and it was decided to reach out to potential international partners.After an informal confirmation that BESSY I was to be decommissioned and a first positive response to the idea of donation to the Middle East, Schopper and Fubini reached out to UNESCO.Federico Mayor, Director General of UNESCO at that time, confirmed his support.This was an important cornerstone since, considering the troubles of the region, UNESCO seemed to be the only way of running such a project.From the beginning SESAME was thought of as following the CERN model, also promoting science while at the same time bringing people from different nations together and serving as a peacemaking project 32 .

2nd phase (1999-2008): institutionalization phase
Mayor's support led to the first consultative meeting of MENA and Mediterranean governments at UNESCO Paris in June 1999, where the project was much appreciated and as a result the interim council was established.The function of the interim council was the development of a proposal for the establishment of the center 33 .In the beginning, it consisted of 12 members 34 and four advising committees (technical, scientific, training, finance) 35 .Between 1999 and 2001 the interim council held nine meetings 36 until it was transformed into the SESAME Council in 2003.The major task in this phase was to find an appropriate location and host country, to organize the shipping and to prepare the technical design.
Schopper describes the procedure of finding a location for the research facility comprehensively 37 .Of the 12 sites offered by seven SESAME members (Armenia, Egypt, Iran, Jordan, Oman, Palestine and Turkey) 38 none was really suitable.Many different kinds of obstacles got into the way, e.g.financial problems of the Palestinian National Authority, structural conditions of an Armenian building or Iran's entry requirements 39 .Eventually, there was a decision for Jordan in a competition between five remaining countries, among them Egypt."Jordan was the most promising country as far as free access by all scientists was regarded" 40 .It seems that it is more of a lucky coincidence that SESAME could finally win over Jordan as its physical home, since there was no contact with the Jordanian government, which was a large setback according to Schopper.Schopper reports that he had asked a former student and friend of his, Isa Khubeis, in his role as Vice-President of Al-Balqa Applied University at Allan for help, who invited him for dinner.Surprisingly HRH Prince Ghazi Bin Muhammad showed up at the dinner.He led the Governing Board of the same university and was advisor to HM King Abdullah II.This is how Schopper got his chance to present the project to the King.He was able to convince him of the idea of SESAME and received a written confirmation of the King's commitment 41 .At an interim council meeting in April 2000 the site in Allan, offered by Jordan, was officially chosen and confirmed as the location of the facility.
As Schopper reports in his article, the whole project was at risk when the German Federal Ministry of Education and Research wanted the components to be dismantled until the end of 1999.It was only by the generous financial support of Kiōchirō Matsuura, who had just recently followed Mayor as Director General of UNESCO, that SESAME's story did not end there.Giving USD 400,000 he provided two thirds of the needed money, which he took from a sum given by the Japanese government to his own disposal.Another $200,000 donation was made available by International Interim Council members, UNESCO, ICTP and Japanese scientists.Thus, the components could be shipped to Jordan in June 2002 where they were stored until the construction of the building was ready for them to be installed 42 .The building itself was decided to be a recreation of ANKA (Angströmquelle Karlsruhe), a synchrotron light source facility in Karlsruhe (Germany) in order to shorten the needed time and to save the effort of conceptualizing it from scratch 43 .
Furthermore, a "white book" was presented in April 2002 proposing an energy increase to 2 GeV and a circumference of 120m.These enormous changes to the initial design required a larger building, which led to the duplication of the ANKA building that was mentioned before.In order to compensate for the rising costs of such changes to the original plans, new ways of financing were established.While trying to get some components as gifts from other facilities, the European Union was asked to finance the main ring.The EU was prepared to fund the ring only insofar as the electron energy would be further increased so that SESAME could keep pace with other newly built synchrotron facilities worldwide.As a consequence, a "yellow book" was prepared that took into account these new requirements 44 .Finally in 2004, the decision was made to build "a completely new 2.5 GeV main storage ring, with straight sections that can accommodate insertion devices [...], thereby making SESAME a competitive thirdgeneration light source, while retaining the BESSY I microtron and booster synchrotron, which provide the first two stages of acceleration" 45 .
The SESAME research center formally came into existence in 2004.Prior to that, UNESCO's Executive Board officially had to accept the proposed statutes that had been prepared by the interim council in May 2002 46 .According to the Statutes of SESAME at least six governments had to accept the statutes and join the council for SESAME to be formally founded.On January 6 2003 Matsuura could announce that this requirement had been fulfilled.Bahrain, Egypt, Israel, Jordan, Pakistan, Palestine and Turkey had become the founding members of SESAME 47a .For further observers see Footnote 47b .On the same day, His Majesty King Abdullah of Jordan laid the cornerstone of the building 48 and the SESAME Council held its first meeting, thereby superseding the interim council.Herwig Schopper was elected as President of the permanent council with Khaled Toukan (Jordan) and Dinçer Ülkü (Turkey) as Vice-Presidents.
Even though SESAME has achieved the formal status of an international research center under the auspices of UNESCO, it still seems to owe its formation and maybe even its continuance to the exceptional dedication of a number of individuals, generally scientists by training.This makes SESAME a prominent example for a "bottom-up" science diplomacy case.SESAME is clearly the result of strategic thinking and a good deal of sensitivity for timing and political circumstance.But most importantly, the compassion, commitment, and determination of a number of individuals, mainly scientists in high ranking or directing positions within the science system were the essential drivers at the early stages of the project.

3rd phase (2008-2017): maturity phase
The official opening of the building was in November 2008.The first successful electron beam was produced on 14 July 2009 49 .At the same time Chris Llewellyn Smith, another former Director General of CERN, took over the presidency of the SESAME Council.Under his lead a strategic plan was set up to structure the work to come and install the equipment in the so far empty building, as described in a recent article of his 50 .The plan "revealed that […] construction would cost much more than previously assumed, and it became clear that it would not be possible to obtain all the funding from outside without first obtaining a substantial part from the Members" 51 .In 2012 the four members Iran, Israel, Jordan, and Turkey each pledged to contribute USD 5 million to the capital budget.Although others paid, Iran could not make the payments due to the international sanctions.Following this, the EU through CERN provided 5 million Euro to construct the magnet system for SESAME.Italy also gave EURO 3.35 million in total since 2014 52 .Following these contributions the installation started and was finished in November 2017.During that time, in 2014, the roof collapsed due to heavy snowfall but fortunately the shielding wall inside the hall protected the machine.One year later the damage was repaired without further impairments.Within recent years, SESAME has succeeded in operating its first two beamlines (one in the infrared and the other one in the X-ray range; IR and XAFS/XRF beamlines) and in opening up the research facility to the community of scientists on a regular basis.2019 marks the year with the first scientific publication that results from research conducted at SESAME.Yet, SESA-ME's future as a fully-fledged synchrotron laboratory with a number of more beamlines is still to come.The building allows for more than18 beamlines besides the currently installed two 54 .Afterwards the materials science beamline has become operational with two more being under construction (soft X-ray spectroscopy (HESEB) and tomography (BEATS) 55 .Three more (macromolecular crystallography (MX), small angle X-ray scattering (SAXS) and soft X-ray spectroscopy (TXPES) beamlines are also being designed.The source of the Helmholtz-SESAME beamline (HESEB) will be shared thanks to a switching mirror installed after the monochromator with the TXPES -Turkish X-ray Photoelectron Spectroscopy beamline; which will focus the beam in a sophisticated photoelectron spectroscopy chamber.
A In general, the idea of SESAME is not the result of a plan or strategy by political actors.Neither was the project born at a singular instance or place, from where it was brought into being on a straight-line roadmap.The evolution of SESAME, both as a vision and in its current institutional and physical realization, is an ongoing contingent process that could have failed, faded out or taken different tracks at several junctures.Its history is described most appropriately as an encounter of circumstance, creativity, and coincidence.SESAME depended on the right people who met at the right places during the right times: the occasion of German re-unification propelled the plan to build a new synchrotron that would replace an old synchrotron that could be "refurbished" for the first time 57 ; a few international, renowned and synchrotron-experienced scientists that had both the intuition that a synchrotron was missing in the Middle East and were acquainted with the proceedings in Germany; and finally the supportive network and example of CERN that could provide a role model, to name but the most crucial conditions.SESAME stems from a "bottom up" initiative by scientists.It was only later that the idea of SESAME resulted in an institutional framework and could rely on a more formalized structure and support on the international and national level.

Stakeholder landscape and character of relationships
4.1 Institutional structure SESAME is an intergovernmental scientific centre owned by its members and resting under the auspices of UNESCO.
From an institutional point of view, this constitutes SESAME as an independent and self-responsible international organization.UNESCO serves as the legal depository of the statutes of SESAME.SESAME's core governing body is the SESAME Council (subsequently referred to as "the Council"), which came into existence on April 15 th , 2004 and holds regular meetings twice a year with the representatives of the members and observers.The executive bodies of SESAME are the directorate and the administrative, scientific, and technical offices.The advisory committees are formally established at the Council as well.The advisory committees constitute important links between the Council and the development of the facility and the running of research activities on the ground (Figure 7). 56Interview#4 and Interview#5 57 Interview#3

Composition of the SESAME Council (members and oberservers)
There are two different forms of institutional membership (in the Council): members and observers.The status of membership of SESAME has been awarded to countries only, while countries and intergovernmental organizations have obtained observer status.Currently, SESAME consists of eight full members (as of 2019).These are: Cyprus, Egypt, Iran, Israel, Jordan, Pakistan, Palestine and Turkey.Furthermore, SESAME enjoys the support of a number of observers; these are (as of 2017) Brazil, Canada, China (People's Republic of), France, Germany, Greece, Italy, Japan, Kuwait, Portugal, Russian Federation, Spain, Sweden, Switzerland, the United Kingdom, and the United States of America.Also, the European Organization for Nuclear Research (CERN) and the European Union (EU) also obtained observer status (Figure 8).
This division of membership between members and observers allows for an institutional setting, in which members that are intended to actively participate in SESAME i.e. to use the research facility (target countries) obtain different rights and obligations than those supporting the centre.The most important formal obligation of active membership in contrast to supporting roles is the yearly financial contribution, while observers have no formal obligations.Given the fact that UNESCO is an intergovernmental body and given the statutes of SESAME it can be concluded that the only major sanctioning mechanism of "non-compliant" members consists in the eventual exclusion from the council and revocation of membership.
We conclude that countries that choose to be active members of SESAME have been able to stipulate sufficient "intrinsic" motivation within their countries, i.e. identified the associated national interest of their membership in SESAME or indicate a strong and convincing proponent in the national research infrastructure that is able to encourage the obligatory authorities to commit the required budget and political will.This also holds for the observers, e.g. the German Ministry for Education and Science was described as very hesitant to support the facility project from the very beginning.It never stepped in due to its assessment that the project would be too risky and at one point even wanted to stop the export of equipment to Jordan 59 .By contrast, German science organizations acting independently from the government have been the main driving force behind the support and membership of Germany in the Council.SESAME has been trying to reach out to and affiliate more members, especially from the Maghreb and the Gulf 60 .For instance, there were concrete negotiations with Iraq to join in November 2013, yet Iraq has not become a member possibly because its internal infrastructure was not yet sufficient.Morocco and the United Arab Emirates were expected to join as members at some point as well 61 , but have not.Since 2004, membership is tied to the yearly contribution.Bahrain was one of the formal founding members, but is not a member anymore.Bahrain's membership ceased in April 2017 after it had not contributed its financial share since 2005 62 .This means that the member has most likely only contributed its initial first year share.Before its exclusion, Bahrain had been formally asked to re-engage with SESAME by the council.Saudi Arabia is not part of SESAME and the United States are not engaging very strongly in SESAME on the governmental level.In an article about SESAME from March 03, 2017, LeTemps linked this to Iran's membership

Agency and representation in the Council
As far as it has been revealed to us, none of the representatives in the Council (therefore, also not the President of the Council) receive any salary on behalf of SESAME.They contribute in their positions on a non-stipendiary basis or as part of their official affiliation such as the liaison officer of UNESCO, Clarissa Formosa-Gauci.Representatives of members and observers as well as members of the advisory committees typically participate and contribute on behalf of their main employing institutions.Representatives of the members usually work either in high-ranking positions as professors and directors at universities, academies or synchrotron facilities in their country or in the respective ministries for education, research and innovation.A share of delegates is furthermore closely affiliated with national atomic energy agencies in their respective countries.We have found that it speaks for the authentic engagement of a member if the representative is participating on a regular and long-term basis (is not replaced often), takes a personal interest in the project and is affiliated with a scientific institution in his or her home country.We found that there was a considerable personal engagement and concern with advancing matters at SESAME from representatives that were sent by research institutions.However, the council meetings are not open to the public and therefore insights were restricted also to us.
It cannot be overstated that the outlook of SESAME depends to a great extent on the various institutional affiliations and the scientific expertise of individuals, who serve in any of the permanent and honorary positions in the institutional setting of SESAME, mainly in the Council and the directorate.They bring in their professional international networks and expertise and in that have made possible the establishment of an international research infrastructure from scratch.Most importantly, this certainly applies to the former and current Presidents of the Council that have also served as former directors of CERN.They have contributed and still contribute an invaluable asset of experience, expertise and network (we will take a closer look at them in the next sections).

Advisory Committees
The advisory committees are formally a part of the Council.They have played (and still play) a significant role in the planning, technical support and active international promotion of SESAME throughout its establishment.Most importantly, they seem to form crucial junctures to feed in external technical expertise from the international synchrotron light source community.In particular, the Scientific Advisory Committee (SAC) and its respective chairs have advanced the makeup and outreach of SESAME considerably.Since 2018, the SAC has been chaired by Esen Ercan Alp, a senior scientist of Turkish descent and a long serving physicist at the Advanced Photon Source at the Argonne National Laboratory in the US.Prior to him, the position was filled by Professor Zehra Sayers from 2002 to 2018, a biophysicist and director of the foundations development program at Sabanci University, Istanbul.Sayers has served not only with her international expertise but also with great passion and commitment that is certainly required to execute the task in the phase of institutionalization and construction of the synchrotron.She was awarded the Rammal Award 2017 for her outstanding contribution, "from collaboration at the political level and at the construction of the facility to getting the science going by ensuring high quality exciting projects of young and experienced scientists from the region".Sayers has given several TED talks about her commitment to SESAME.In these talks it becomes evident that working with synchrotrons has touched upon her life and this is from where she draws her motivation.According to her, SES-AME became "a very big passion in my life", 63 the fascination for "making the invisible visible" that she discovered also during the influential experience of working in EMBL Hamburg Outstation on the synchrotron at DESY as a young postdoc (also a station in the academic life of Esen Alp).She describes the working atmosphere at a synchrotron as a very energizing and inspiring one: "synchrotrons have a special atmosphere or environment of their own" 64 .She articulates the urge to give back something to the next generation of scholars and to leave something behind.
Similarly, the Technical Advisory Committee (TAC) are staffed with international personnel that dispose of considerable expertise and specialization in the field of synchrotron physics.Amor Nadji, the current chair of the TAC, is Director of Accelerators and Engineering at the SOLEIL synchrotron user facility close to Paris, France and Professor Javad Rahighi, used to be the chair of the Training Advisory Committee (TrAC), is Professor of experimental physics at the Institute for Research in Fundamental Sciences in Tehran, Iran 65 .It may have been a blessing in the constitution of SESAME that synchrotron technology is still such a fairly exquisite and specialized area of expertise so that careers in this "world" are often international and networks span globally.The SAC has worked towards building expertise to use synchrotrons in the region and has therefore organized workshops and training at other facilities in Europe and beyond.

Permanent staff
The permanent staff at the SESAME research site are still fairly limited, at around 66 people 66 .They are mainly composed of technical engineers, management and scientists required to run the facility and the two beamlines.Permanent staff are not to be confused with the users (researchers) that come to SESAME to conduct experiments and the members of the SESAME Users' Committee (SUC) 67 .The permanent staff are truly international, and are recruited from the local area, from the Middle East region and from the international (synchrotron) community beyond the Middle East in accordance with SESAME's vision.For example, the two responsible beamline scientists of the two currently operational beamlines are Messaoud Harfouche (formerly serving at the Paul Scherrer Institute in Switzerland, XAFS/XRF beamline) and Gihan Kamel from Egypt (previously having been trained in Italy and serving in Egypt; since 2000 the only woman in the permanent staff at SESAME; IR Beamline).If we decide to understand science diplomacy as the creation of bonds between people with different backgrounds on a concrete level (as a crucial aspect of the abstract aim to contribute to peace and mutual understanding), it is achieved during the daily business at SESAME.This includes the daily encounters of internationals who spend a lot of time together, sharing commitment and effort to reach common aims 68 .This commitment was described as very strong to us.It is also based on the high individual motivation and openness to a common cause.
However, the staffing level is thin due to budget restrictions, especially due to the insecurities about the member contributions 69 .Responsible positions are not necessarily equipped with a full-time position..It is intended that "in the long run, the position of Secretary of the Council will move to SESAME.In the meantime, it will be held by Clarissa Formosa Gauci who has de facto been carrying out the tasks incumbent on this position ever since the creation of SESAME in 2004 and before this during part of the period of the Interim Council." 70The director of SESAME, Khaled Toukan, serves on a non-renumerative basis.Khaled Toukan is also the president of the Jordan Atomic Energy Commission and held several positions as minister for science and education in the Jordan government.This provides SESAME with invaluable backing in its host country and it shows that science diplomacy is not necessarily a matter of "in between" (in between different 63 https://www.youtube.com/watch?v=dohcpJddNGQ, time stamp 5:53. 64Ibid.time stamp 10:17. 65The Advisory Committee for Beamlines was merged with SAC in 2012.. CERN's support for SESAME was also made possible through the European Union, which provided CERN with EUR 5 million to "lead the procurement of the magnet system for the main ring in collaboration with SESAME" 73 .The magnets are key components of a synchrotron.They have been designed by the technical team from SESAME in the first place, while scientists from CERN provided a review and conducted the measurement of the magnets, which requires expensive equipment that SESAME does not have on its own, and also helped to set them up 74 .
SESAME staff and stakeholders do not become tired of pointing out the many important contributions the EU has made 75 .The EU support has been described as comprehensive and coherent 76 .The EU has made and/or enabled numerous financial contributions more recently, mainly within the last few years.
The EU provided EUR 6.36 million (own estimation upon the given number of USD 7.05 million) for the construction of an on-grid solar power plant through the Jordanian government in 2016.The power plant was officially inaugurated in February 2019 and is located 30 km away from the research facility.It will be able to satisfy SESAME's full energy demand in the years to come: "Thanks to this power plant SESAME is now not only the first synchrotron light facility in the region, but also the world's first large accelerator complex to be fully powered by renewable energy."Again, the Jordanian authorities, in this case especially the support from the Jordan Atomic Energy Commission (JAEC), have been key in realizing this effort.Since the high electricity requirement has been a major concern for SESAME and has even forced a stop of the running of the beamline for weeks during the year 2018, the new power plant is a big step forward in terms of financial security and budget reliability 77 .For the first time, the EU as a donor has invested in an effort that helps to cover the running expenses, by contrast to the majority of contributions that went into technological expansions and enhancements of the facility.facilities are involved in all the steps of setting up the beamline.This is different in comparison to other donations and cooperation with European synchrotrons that have sent their own engineers for the set-up of the donated equipment 78 .In addition to that, the EU has provided funds for the "OPEN SESAME" consortium consisting of 10 European synchrotron facilities and science organizations with funds to establish an orchestrated training and promotion programme that is tailored to the needs of SESAME within the Horizon 2020 framework programme 79 .The project started on January 1, 2017 and ran for three years. It

The Global Synchrotron Community
The global synchrotron community is the group of scientists and engineers that design, build and maintain synchrotrons.
Even though it has a global span, this community is fairly small and intimate.In general, members know each other 81 .This is different from the synchrotron users community, which is far larger (it amounts to around 25,000 scientists at the European facilities alone), rapidly growing and much more diverse in disciplinary background.There is a frequent exchange of expertise and personnel between the facilities in the world; according to LEAPS founder Helmet Dosch "Synchrotron x-ray sources and free-electron lasers have always collaborated, but not in a coordinated way".The community is competitive when it comes to designing and experimenting with more powerful and innovative technologies.Yet, it also has proven to be highly cooperative and engaging when it comes to sharing expertise and supporting each other in the construction of new synchrotrons.Furthermore, the community is still evolving and constantly (re-)organizing 82 .
The intimate character of the synchrotron community is linked to the fact that synchrotrons are sophisticated machines that require highly specialized expertise and therefore attract and bring together a small group of people.The cohesion of the group is also due to the fact that there are few advanced synchrotron light sources around the world where people are trained and develop the technology.Furthermore, synchrotron technology is fairly young (the community has transitioned into the 2 nd generation).Three decades passed before synchrotrons could be used as the users research facilities that they are today.Until the 1980s the technology was still in its infancy and the community was accordingly smaller.It was in the early 1990s that more countries -besides the few initial sites in the US, in the Soviet Union, in Germany and in Switzerland -constructed facilities for a broader range of research applications.Consequently, the few founding figures and early developers of this technology were imperative advisers for the establishment of new synchrotrons.In the late 1980s, for example, Taiwan and South Korea decided to build synchrotrons as part of their investment strategy in innovation with the financial resources coming out of export excesses from the growing low technology industries (in clothes, toys, electronics etc.).They therefore depended on expertise outside of their country.A major motivation was to train students on an internationally competitive level and to prevent brain drain 83 .They succeeded in training hundreds of students and in building up their own users communities in the region even with a limited performance range of their facility 84 .Therefore, SESAME is not the first synchrotron that was built on the basis of the support of the global synchrotron community in a country that is completely new to the technology.
The biggest difference is the member constellation and structure of SESAME that again has a major impact on the financial support, especially income reliability and user structure.These countries such as Taiwan and South Korea were ready to spend USD 100 million on this technology and succeeded in building up highly active users communities that carried the synchrotrons into self-sustaining futures 85 .Similarly, there is almost no experience with accelerator technologies in the Middle East.Usually, scientists from the region have to go to facilities in Europe or the US to be trained and to conduct research if they get a chance.It will be a major challenge for SESAME to also create the scientific awareness and demand not only within one country but a whole region to attract users.
Looking at the overall personnel structure (meaning people who have lent their expertise and time during the management, design, construction and running of the site), SESAME is brought into being by the global synchrotron community.It is based on the support of a large number of facilities in Europe and the United States that have contributed components, expertise, training and exchanges.Apart from that, some of the current staff at SESAME were also recruited from these synchrotrons.These physicists come from different parts of the world and usually have worked at several synchrotrons around the globe.This also includes scientists from the Middle East region that went 78 Interview#5 79 More details about "Open SESAME" are covered in section 5.1 80 (Interview#5) 81 (Interview#4) 82 In 2017, 16 European particle accelerator facilities have formed a common umbrella organization called LEAPS in order to "jointly develop methods, instruments, and data-management approaches; avoid duplication; and communicate with policymakers and funding agencies."(https://physicstoday.scitation.org/do/10.1063/PT.6.2.20190123a/full/) 83 Interview#4 84 Taiwan started with a 1.3 GeV synchrotron and pushed it to 1.5 GeV.Therefore it could not do the high energy X-rays.The design was proposed by western physicists (H.Winick was one of them).They later recognized that they were too modest with regards to the proposed performance layout (Interview#3). 85Interview#3 to other countries to study and work before they got involved in SESAME.Seen against this background, SESAME is a product of what we call the global synchrotron community and in that it is truly an international science endeavour.

Training
Offering training is one of SESAME's main activities and objectives.Before SESAME started to serve as a research facility in 2018 and before it even operated its first beamlines, it organized training at different synchrotron facilities and tried to bring academics together in order to create an interest and understanding of the technology for many years.The intention of creating a community in the region that is familiar with synchrotron technology might be just as important as building the research site itself.Given the fact that there have been only two research teams present in 2018, the main "interfaces" that are of interest from a science diplomacy perspective are still training, users meetings, and the collaboration during the designing and commissioning of the facility.Furthermore, the training is another instance of international and crosscultural encounter and collaboration.At these events, scientists from the region and from the international synchrotron community meet each other in one place, which they would not necessarily do during the short research stays at the site.
In the case of SESAME, training mainly deals with "accelerator physics, beamlines, and scientific applications" 86 .The purpose of the training is pursued in different settings and frameworks.It does not only include traditional workshops and individual trainings through visits at other synchrotrons and fellowships, but also includes the annual users meetings 87 .
Training opportunities at SESAME are provided funding and support from a large number of scientific societies, physical societies and international organizations: IAEA, UNESCO, ICTP 88 , APS, EPS, Sharing Knowledge Foundation, etc. and a large number of synchrotron facilities in Brazil, France, Germany, Italy, Japan, Spain, Sweden, Switzerland, Taiwan, UK, USA 89 This is another example for the importance of the global synchrotron community for the furthering of SESAME.A recent individual exchange example is the DIAMOND 90 -SESAME Fellowship Grant, endowed with the amount of GBP 1.5 million for a time frame of three years (2017-2019).It funds the administration and mentoring efforts of SESAME staff at the DIAMOND site for visits of one to three months 91 .It is required that the selected fellow is both a staff member of SESAME and has the nationality of one of the member states.The selection process is in the responsibility of SESAME management.
However, one of the institutionalized training efforts has been realized through the EU Horizon 2020 funded "OPEN SESAME" consortium that started in 2017 and was scheduled for three years and funded with EUR 2 million.The main objective of OPEN SESAME is to "train SESAME staff in the storage ring and beamline instrumentation technology, research techniques and administration for optimal use of a modern light source facility, to build-up human capacity in Middle East researchers and to train SESAME staff and its user community in public outreach and corporate communications".The consortium's core activity consists of 65 staff exchanges to the 10 other consortium member synchrotrons and science organizations in Europe and four training schools.It furthermore provides online learning materials and fellowships for students at the Master and doctoral level and a "roadshow" to promote SESAME's scientific purpose in the region.
Apart from the training efforts tailored to the researcher community in the Middle East, SESAME trains engineers and technicians at its facility as part of the positions that operate the accelerator and storage ring.It therefore also "produces" well-trained staff in the region that are sought for by others, such as employers from the industry.Unfortunately, SESAME has already had the experience of losing well-trained staff to the industry 92 .While this is of course a good sign for the quality and acceptance of the site, it is also a costly risk.

Users Meetings
The users meetings take place once a year, in Jordan.Since 2001 only 4 took place in member countries including two in Cairo, one in Turkey and one in Isfahan.These meetings are the main encounters ("interface") of the synchrotron research community in the region and researchers from the global synchrotron community, some of them working for SESAME (including members of the advisory committees, the Council president and the directors of SESAME).Users meetings are in general a means to provide the community of researchers (that are involved in a wide range of research applications and different topics) with a platform.The talks also provide current information on the state of affairs of the facility and of the selection processes and time schedules.In the case of SESAME, the users meetings are also employed as a means to teach and give general insights into the synchrotron technology and its potential applications.In that regard, the talks explicitly entail pedagogic ends and speakers, who are invited from other facilities mostly in Europe and the US, and are asked to incorporate this purpose in their presentations 93 .Participation at the users meetings is restricted and requires application through the online SESAME Portal.Users are selected based on the scientific quality of their abstracts 94 .

Researchers at SESAME and users access management
A researcher's access to synchrotron user facilities is commonly restricted through a peer review selection process.Researchers ("users") need to apply for "beamtime".This is also the case for SESAME.Researchers submit proposals and announce their research ideas in response to a call for proposal that is issued twice a year according to the schedule. 95The proposals are selected on the basis of scientific merit and technical feasibility by an international board (the Proposal Review Committee, PRC) that assigns a certain time frame for the researchers: "The PRC members are appointed by the director of SESAME after seeking suggestions from the members of SESAME's Scientific Advisory Committee.They serve in a personal capacity, and hold office for three years.An additional appointment of three years is possible, but not automatic."The evaluation of the proposals includes an initial safety assessment and the assessment of technical feasibility by the relevant beamline scientist.Users are strongly invited to contact the beamline scientists before submitting proposals in order to assess and adjust needs and possibilities beforehand.
An early call in 2017 resulted in 36 proposals for the XAFS and 19 proposals for the IR beamlines.In the second call 2018, the numbers went up to 60 for XAFS and 43 for the IR and 12 proposals from these came from scientists who got involved through OPEN SESAME schools.However, the facility was not ready soon enough for the created research demand.In 2018 the machine delivered 15 weeks of beam to the beamlines (used also for commissioning) and 18 proposals were allocated beamtime on XAFS and 6 on the IR beamlines.Partly due to the delays in the running of the beamlines and other hurdles, the original schedules could not all be maintained and confirmations could not be adhered to, which has created dissonances and frustration among the users' community already.One scientist reported that the interest and trust in collaborating with SESAME has been damaged due to recurring delays in the start of the operation 96 .SESAME is certainly in a crucial moment in its evolution, specifically at this moment of transitioning into a fully operational facility while building up more beamlines on a permanent basis.This moment in time requires fortified investments and community building while academic results need time to build up and cannot prove the scientific merit of the project immediately.

Funding and financial situation
As a member-owned research centre, SESAME's financial resources are to be primarily generated on the basis of member contributions.Reliable and timely payment of the members's contributions has proven a major challenge from the start.The yearly contribution expected from each member is adjusted to the member's spending capacity.In the year 2018, Iran, Israel, Pakistan and Turkey were expected to pay USD 913,000 as each one's yearly share.Cyprus, Jordan and Egypt were expected to pay approximately USD 520,000 each.Palestine was granted to contribute the smallest share of around USD 50,000.These yearly shares have been alike in former years.Cyprus, Israel, Turkey and Jordan seem to be able to satisfy their financial obligations overall, while other members are in arrears.The financial situation is strained due to the persistent payment defaults of several members 97 .
The reasons for payment delays are manifold and different for each member.In some cases, a lack of governmental support may contribute to the low payment morale 98 .In another case, payments could not be transferred due to international sanctions despite the willingness of the member.This has happened in the case of Iran.In general, the memberscommonly take their contribution from the respective science and research budgets.Yet, most membersallocate a comparably small share of the national budget to the science and research budgets 99 .The Council's leverage to sanction payment defaults is limited to the eventual exclusion of a member.(This has happened only once so far in the case of Bahrain.)Yet, from a rational choice point of view, the exclusion of a member further reduces the potential source of income for SESAME and therefore it is unlikely to be in the primary interest of the Council.This is especially true during the construction and extension phase, when initial investment requirements are high.
The two main expenditures in terms of running costs are staff and electricity.Electricity consumption amounts to approximately USD 1 million per year, an equivalent of up to 30-40% of the current annual budget 100 .This is also due to the fact that electricity prices in Jordan are high.Jordan does not possess its own oil springs.Most of SESAME's electricity consumption goes into the magnets for the acceleration of particles.The required basic energy input to build up the energy level in the storage ring is fairly the same for one, two or more beamlines.From a point of view of efficiency, it would be therefore crucial to complete further beamlines as soon as possible.However, the budget based on the yearly contribution of the member shares does not cover more than the running expenses (approximately USD 3,000,000 in the year 2018).This means that SESAME depends on additional (perhaps external) contributions when it comes to initial investments, extending the facility or adding new beamlines.

Ownership and support
External financial support and equipment donations could be secured during all phases of the construction of SESAME for individual purposes and were crucial for its constitution from 95  the very beginning.Additional national resources have been tapped in several instances on an almost regular basis to collect the instruments and expertise in order to set-up the first beamlines: some members have contributed extra shares; Italy has observer status and contributed financial resources.But this was not on a regular basis or in disproportionate amounts.Despite the great support from Jordan, it seems crucial however that SESAME is not perceived as a national project, neither as a project of Jordan nor any other member among the members and users.The Jordanian Royal Family representing the member's national support for the facility was described as very supportive.Yet, their ability to support the facility was described also as limited due to the fact that the facility should not be perceived as a national project 101 .This is true for any other funding and supporting partner from inside or outside SES-AME, so that it maintains its character as an international research site that is run equally by all its members.Against this background, it seems to be important that contributions can be made through international or supranational bodies and scientific institutions.This is also an important asset of the EU as a partner of SESAME.
On the one hand, it plays an important part for the character and coherence of SESAME as a self-governing research centre (and therefore exceeds the financial aspect) that its members are able to gather sufficient support within their own communities to sustain the facility 102 .On the other hand, it can be deemed unfortunate that they are not allowed to do so.
Considering that the overall required budget is comparatively small for a synchrotron of this size and in regard of the overall honourable ambition of the project, there are individual donors within the country and beyond that could easily increase their share and even would be willing to do so 103 .In comparison to the construction of national synchrotrons, SESAME seems to have also suffered from being somewhat "doomed" to be set up as an international research centre with the explicit expectations that members have to cooperate and contribute equally.It remains a hypothetical question, if it might have been easier and faster to finish the synchrotron in smaller membership constellations.
The dependence on external contributions from other countries, supranational organizations and scientific institutions entails risks and frictions 104 .First, it has prolonged the construction considerably.During its reconstruction, BESSY I had to receive a number of technical upgrades.Among others, it was necessary to build a new storage ring to make SESAME a competitive machine, therefore not using the BESSY I storage ring as initially intended; "In December 2004, the design of the SESAME machine for a final energy of 2.5 GeV was approved -this meant building a new storage ring from scratch with a much larger circumference (133.2m)rather than upgrading that of BESSY I." Many components have been added also by contributions from other synchrotrons and supporting facilities (e.g. from the UK, Switzerland, Germany and France 105 ), which again took time to organize, ship, and attach.
Furthermore, the dependence on donations and contributions apart from member contributions entailed the risk of misinterpretations and of creating the image of a donor-receiver asymmetry 106 .In fact, BESSY I was an outdated facility and had been in use for decades when the decision was made that it should be replaced and decommissioned 107 .Despite this, the idea was brilliant to decommission and recycle a synchrotron with the intention to "sell" it as a starting point for the construction of a new synchrotron.It would have been much harder (if not impossible) to create sufficient support to start a synchrotron project from scratch without any initial assets.Therefore, the donation of BESSY I can be considered first and foremost a successful micro science policy strategy to convince official stakeholders and to create the founding narrative that might be strong enough to carry the idea into being.Yet, it also created the impression among scientists in the region that outdated equipment was donated that was not of use in Germany anymore 108 .

Science diplomacy, international collaboration and scientific excellence
This impression was even aggravated with SESAME being linked to a political vision of "bringing peace to the region" and with being established as a science diplomacy project 109 , a narrative that is potentially imbued with a number of nonscientific intentions that are hard to read and guess for all stakeholders in the field.In general, it can be stated that the political imprint of the project has not only pushed SESAME forward with regards to raising support and commitment, but it has also raised further suspicion mainly among scientists from the region.The narrative of science diplomacy as being part of SESAME's mission was interpreted as such a political agenda that was rejected for this science collaboration effort.Some scientists were eager to point out that the project will be successful only on scientific grounds and that political motives are potentially damaging for its further success 110 .It seemed as if the support of political stakeholders (both from a national and supranational level) was regarded as charged with intransparent motives that were potentially hampering scientific goals or were even interpreted as a disguise to impose political goals 111 .The explicit aim of bringing people together was described by some people as a political agenda and was 101 Interview#4 102 Interview#4 103 Interview#4 104 At the same time, it has to be taken into account that otherwise it would not have been realized at all. 105Daresbury and LURE (Laboratoire pour l'Utilisation du Rayonnement Electromagnétique) 106 Interview#1 107 Interview#4 108 One interviewee reported: "At that time it was like a shock for me: Why are we getting the garbage?" (Interview#1) 109 Interview#1 and Interview#2 110 Interview#2 111 Interview#1; Interview#2 sometimes assessed critically or as a somewhat artificial obligation 112 .This criticism was linked to the hypothesis that SESAME and the support of the EU would not have been realized without Israel being a member of SESAME a condition that is unlikely to apply to any other member 113 .
When it comes to the science diplomacy intention of SESAME, to bring people from conflicting national and cultural backgrounds together, assessments and results cut both ways: on the one extreme are scientists that clearly oppose working together in (what they find to be) imposed teams consisting, for example, of Israelis and Palestinians.This does not mean that they oppose SESAME as the scientific effort but rather seems to resent the idealistic charges and expectations of SESAME that from their point of view clashes with reality.One scientist said he could not ignore what Israelis have done to Arab communities and directly linked his disapproval of working closely together with Israelis (apart from taking notice of published results) to the political situation: "If an Israeli comes to SESAME he has the right to work.I do not care.But collaborate with him: No. Frankly speaking.All people in the region will do the same." 114Furthermore, he pointed out that a group of scientists left the room when an Israeli scientist presented during a recent users meeting for the same reason 115 .He added: "We cannot accept the fact that there were things done wrong against our society, our people.[...] This dream is not coming true.It is not coming true.Unless the Israelis understand that this has to change, the owners of the land should go back to their homes, the refugees should go back to their towns.We are not against Jewish people." 116 the same time and on the other hand, SESAME is praised by scientists, who work at SESAME, for its vision and endeavors to bring people together beyond conflicting boundaries on the grounds of the uniting capacity of science.It is described as an "oasis of advanced science and technology, of understanding, neutrality, and fairness.An oasis of peace; a certain kind of peace that calls no diplomatic deals.Just science.
The very pure logic of science." 117While this assessment is much more positive and affirmative with regards to the peace building effects of SESAME, it should be noticed that again the scientific nature of SESAME is emphasized beyond all others and is particularly juxtaposed in opposition to diplomatic ends: "I don't think that the governments of SESAME Members or Observers are wasting their time or money for nothing.There are politicians, policymakers, diplomats, administrators, but the key players are scientists, engineers, and technicians.The end product is scientific results, not agreements, regulations or measures." 118Regardless of how much one is in favor of the peace making aspect of SESAME, it seems to be consensus that it will only materialize as a result of the scientific achievements and progress of SESAME.It will not be the result of a concrete strategy or immediate aspirations that may as well run under the heading of "science diplomacy".
It can be summarized that scientific international collaboration at SESAME will only be successful in the sense of being inclusive and coherent towards the region if the scientific aspect is prioritized above all others 119 .The directors, scientists and managers that are involved in SESAME and that have talked to us did not get tired of highlighting the importance of advancing SESAME in terms of scientific excellence.If SESAME does not prove that it is able to produce competitive scientific results, it will also not be able to serve in diplomatic terms.SESAME will not be a credible science diplomacy case if the scientific ambition is not considered paramount.

Inclusion and exclusion of actors
The topic of participation and inclusion/exclusion is a central and vigorous one in the case of SESAME and plays a role on at least two different levels.On both levels the relevance of this topic is "real" in the sense that it can be empirically substantiated; yet it clearly depends on how one chooses to look at the case.On the first and probably more obvious layer, the relevance of the topic of participation is the case in as much inclusion is regarded as a constitutive part of the founding narrative and publicly transmitted identity of SESAME.This addresses the core idea of this project, which rests on the vision of bringing together different people from different members on a scientific basis that do not usually cooperate.On this layer, inclusion and exclusion as a topic takes place mainly among the members according to differences or even hostilities among them that feeds into the founding spirit of SESAME.However, this perspective relates only to the rather obvious layer of the topic of participation in this case.
On a second and more tacit layer, the topic of inclusion and exclusion may play another quite different role in the formation and current understanding of the project among the participants.Twisting the perspective from the donor/initiator to the recipient discourse, SESAME is also understood as a response to the on-going exclusion and discrimination of Arab researchers in a western dominated international science community 120 .It has been reported in several talks and interviews that it has proven difficult for Arab researchers to get their proposals accepted in order to be allowed to conduct research in the advanced European facilities.By contrast, Israeli researchers are much more likely to get access to western facilities.In contrast to most Arab research communities, they have direct access for example to ESRF and Elettra Sincrotrone Trieste in Italy 121 .The positive effects of a synchrotron (community) within the region might therefore not be self-evident for Israeli researchers from the start but it would be important to secure their involvement 122 .At the same time, this also makes them an important member of SESAME.Yet again, it can be more difficult for Israelis to reach a facility that is located a couple of kilometres right beside their country than to fly to European synchrotrons 123 .
To sum it up, while the value of SESAME has often been deemed to lie in its peace-making capacity in the region, this is mainly from the point of view of the international press and of the international community.It might be just as much considered a needed redress of a lack of synchrotron technological development in the region and maybe discrimination and exclusion of Arab researchers in the international arena.
In that sense, the topic of ex/inclusion plays a vital role on the level of defining SESAME's purpose and core identity.

Gender
Women made substantial contributions to SESAME and it is fair to say that SESAME would not exist in its current form without the input of a number of individual female scientists.One of the two beamline scientists in charge is Gihan Kamel, a woman from Egypt.She joined SESAME as early as 2015 as a staff member, 2012 as a member in SESAME's Users' Committee representing Egypt and 2005 as a regular user participating in the Users' meetings.She has pushed forward the construction of the IR beamline from the beginning.Unfortunately, she has also been the only woman working permanently in the technical and scientific unit of the facility for a long time and she had to deal with difficulties because she is a woman working full-time 124 .With years, trust and confidence, she was elected as the SESAME Staff Representative.Another woman, who has been part of the evolution of SESAME almost from the beginning, is Zehra Sayers.She was a driving force for SESAME in the function of the long-standing chair of the Scientific Advisory Committee (SAC) (for more details on her outstanding role and contribution see Section 4.4).
Apart from the key contributions by individual women, women seem to be generally more active and are better represented (at least currently, 2019) than men in the current users group 125 : The first official experiment that was ever conducted at SES-AME and at the XAFS/XRF beamline was led by Kirsi Lorentz, a woman from Cyprus.The second official experiment, conducted at SESAME and the first one officially conducted at the IR beamline, was also led by a team of female researchers from Egypt, Cairo University.It would be interesting to know more about the reasons for that finding.Yet it generally matches the fact that women researchers are well represented in scientific institutions in many Arab countries (e.g.Tunisia or Egypt) often contradicting widespread beliefs among Europeans 126 .On average, women are better represented statistically in research institutions in Arab countries than in North America or Western Europe.
At the directorate level, there are currently no women at all.In a few instances it has in fact "reversed brain drain" and caused "brain circulation"127 .Finally, it should not be forgotten that SESAME receives credit for its support in the region.Staff and users of SESAME are well aware of the EU's contributions and this is interpreted as a neighborhood policy, though a strategic and self-interested motivation is identified.

Conclusion and recommendations
One of SESAME's main obstacles is the little cooperation that happens at the member level.This refers to the fact that researchers/users communities at the national level are not developed and systematically organized yet.This makes it hard for SESAME to reach out to the potential users communities more effectively 128 .Organizing (or helping to organize) users communities could also be a task for the national governments of the member states, such as approaching universities and science communities within their countries.The biggest diplomatic effort still remains in securing the yearly budget.SESAME has to continually struggle with the financial situation.Again, this is most probably a topic that also needs to be negotiated among the members and requires the commitment of political elites within the countries.SESAME has enjoyed wide institutional and symbolic support on the international political and scientific level to this day (e.g. by UNESCO, the European Union, national and international research centers such as CERN and the majority of European synchrotrons) that has equipped the project with international backing.Among others, the European Commissioner for Research, Science and Innovation (2014-2019), Carlos Moedas has been a strong proponent of the project.
Paradoxically, SESAME will be most effective in its science diplomacy effort if it does not try to be a science diplomacy effort at all costs.It should continue to put the focus on its scientific core purpose: providing a research facility and advancing the researchers (users) community in the region.The public narration and articulate expectation of SESAME as purposefully bringing people together and building bridges has been interpreted at times as a political agenda that is not always easy to read for everyone and can be interpreted as standing in opposition to scientific objectives.It has raised suspicion and resistance among the fairly diverse groups of researchers.Furthermore, the specific member constellation -which is based on its science diplomacy ambition to comprise politically adverse countries -seems to have complicated the negotiation of (financial) support and commitment considerably.It has also made it difficult to attract new members.In the worst case, if SESAME showcases an overly explicit ambition of overcoming difference and peacemaking, it might just attract the staging of political conflicts.This scenario is unlikely from a current point of view, but should be considered.Maintaining an explicit science diplomacy ambition or not is independent from the fact, that people from different backgrounds do (and will) meet and overcome cultural biases while working at SESAME anyway.The science diplomacy narrative might have earned SESAME support within the international political community and might have propelled even more dedication by the international synchrotron community.We do not know this.Yet, SESAME was modeled on the example of CERN to foster international collaboration and development on scientific grounds.And if SESAME is to follow the example of CERN, this means that it has to continue to consolidate scientific effort before anything else.SESAME and staff should be supported in exactly this effort (they will pursue this effort anyway, we have no doubt about that).

Data availability
Parts of the data basis for this study were generated through desk research in publicly available resources.These resources have been cited and can be assessed.Data that has been collected through interviews and observations on our research visit can not be made publicly available because we have granted anonymity to our research subjects.Interviewees did not give permission for their transcripts to be shared.Our informed consent sheet, signed by both us and interviewees, commits us to protecting their privacy and anonymity, stating that "personal details such as name, phone number, address and email address etc. will not be revealed to people outside the project".Due to the specificity of the provided information and the small group of actors in the field we are unable to sufficiently anonymize transcripts.Aggregating information that was provided in individual transcripts would allow anyone to reconstruct the interviewees' identities.
Please contact Charlotte Rungius (charlotte.rungius@hu-berlin.de) in order to request access to the data.The conditions under which access will be granted are: 1, that the requested material is not protected by a confidentiality agreement; 2, that the material is to be used for unbiased, academic, non-profit academic purposes only; 3, that any direct quotation from the material in something intended for publication requires advance pre-approval; and 4, that any published use of the material include an acknowledgement stating the source of the material as (S4D4C project).The request for material should be accompanied by an explanation of the research being undertaken for which the data is needed and how it will be used, a complete CV of the person requesting the data and the CV of any others who will be given access to it, and a confirmation that the person has no conflict of interest and will not share the provided data with any third parties.
The case study presented by Runguis et al., examines the establishment and the operational development phases of the SESAME synchrotron light source.It also provides a comparative investigation to show relationships between SESAME and other similar facilities.It is clear that the core focus of the report is on the science diplomacy axis.However, moving from one section to another gives the strong impression that it also targets the functionality of SESAME as an intergovernmental research Centre, as well as, its main role as a unique endeavour of science and technology in the Middle East and neighbouring regions.The report, once amended, will for sure provide the community with crucial information necessary to know about the brief history of SESAME which is important for the continuous success of the SESAME facility in general and its users' community from all-over the world in particular.I found it very constructive in general, and it proved to be neutral and transparent in confronting the challenges SESAME is still facing but also nicely presenting the positive aspects and outcomes of such a unique facility of what concerns the scientific merits and values.
The manuscript is generally well structured, but sometimes the authors anticipate statements before they have to appear in the text and/or repeat some statements in different sections.The report needs some improvements and clarifications before one can recommend it for indexing.Therefore, I approve it with reservations.I would advise a consequential detailed study on the individual challenges those may threaten the stability, the fate, and the progress of SESAME.
An annotated version of the manuscript with further comments and corrections can be found here: https://openreseurope.s3.amazonaws.com/supplementary/13362/42a083cc-3cab-4bf4-8a2b-896fcd16e90b.pdfThe authors approach the SESAME project from a science diplomacy perspective but also capture well the spirit of the project as a science driven case based on an instrument (facility) that has to function at world standards in order to succeed.They provide an interesting and frank discussion on its limitations and short comings particularly from the point of view of inclusion and exclusion of actors.There is also a good discussion of various instruments that international scientific community have generated to support SESAME.I consider this paper as a worthy addition to the literature on SESAME.I recommend its indexing after the points listed below are addressed*.
Having said this, I would like to draw attention to two topics which I believe merit further consideration than given in the manuscript.One is SESAME's intergovernmental funding structure which I think is unique among user facilities in the world.Secondly, the authors might have further investigated the cohesion among the members of the SESAME Council and the individual scientists who make the laboratory work.This feature is worth elaborating further, given the diversity of the countries involved and given that the project was developed by individual scientists and not as an intergovernmental venture.Where do the expectations of scientists and those of the Council meet?What are the factors affecting the ownership feeling of the member countries?How can the spillover scientific effects of SESAME in the individual member countries be assessed?Finally, what additional means, other than producing excellent science, can SESAME use to support acceptance of science in the region?*Specific points are listed below: Suggested changes are given comment numbers and are highlighted green in the pdf of the manuscript.This file can be found here: https://openreseurope.s3.amazonaws.com/supplementary/13362/4faf5d89-42f8-4f2b-ac8b-d067f952a062.pdfPage numbers are also indicated below.
Page 3. 1. Insert "operational" instead of "installed".2. Insert "project was conceived" instead of "was established".Because "SESAME" which is the laboratory was established in 2003/4.3. Could the word "primarily" reduce the emphasis made later on the importance of science?Page 4. 4. Replace "international" with "intergovernmental" 5. "A synchrotron…."This is somewhat inadequate description of a synchrotron giving the impression that it is only for biology.One can say "..of matter such as viruses, crystals, proteins, semiconductors, archaeological artifacts etc".6. "device" should be" devices".7. Caption (1) As mentioned in the footnote this map shows only facilities with MX beamlines, it can be a bit misleading with about 20 facilities visible and also SESAME is not on this map.A better alternative would be the map from lightsources.org/light-sources-of-the-world/which also shows SESAME.
If they insist in using this map I suggest the to change the caption as given in the following: The map shows the distribution of synchrotrons that run macromolecular crystallography (MX) [insert "beamlines"].MX is a specific synchrotron [technologyà technique"] that [operatesàuses"] in the X-ray[insert "s"] spectrum and allows to study proteins and viruses [insert "in atomic detail"].[Insert"Facilities with"] MX "beamlines" accounts for only about half of the existing synchrotron facilities worldwide, but [insertà"the map gives an idea about"] represents a fair proxy for the distribution of operational synchrotrons worldwide.
Page 16. 50.I ask to kindly remove this sentence.This statement is against the spirit of SESAME and there is no solid evidence to prove that this is the case.51.Remove "considerable" because this is not actually the case.51a.This sentence is not clear/correct.Representatives of countries are official envoys.Ambassadors to UNESCO do not have anything to the with SESAME.52.Insert "program" after "development".53.Replace "Hamburg" with "EMBL Hamburg Outstation on the synchrotron".54.Replace "PhD scholar" with "postdoc".55.Rewrite Footnote 66 as: Advisory Committee for Beamlines was merged with SAC in 2012.
Page 17. 56.Replace "TAC" with "SAC" 57.Replace "staff" with "scientists" 58.The IAEA has been a major supporter of SESAME from very early on, since 2006, providing support for training and expert visits and deserves a mention on its own.I suggest to split the highlighted sentence to mention IAEA on its own.Suggestion: "The IAEA has been an important for SESAME providing scientific and financial support.The Jordan Atomic Energy Commission has been providing necessary political backing in Jordan."59. " (Smith 2018, 180)" needs to be taken out of here.In footnote 73 the full reference should be given.
Page Remove "BASEMA" 77.There has been three calls for project proposals so far.The part that is highlighted can be rephrased (based on actual numbers recorded at SESAME) as follows: An early call in 2017 resulted in 36 proposals for the XAFS and 19 proposals for the IR beamlines.
In the second call, 2018, the numbers went up to 60 for XAFS and 43 for the IR and 12 proposals from these came from scientists who got involved through OPEN SESAME schools.However, the facility was not ready soon enough for the created research demand.In 2018 the machine delivered 15 weeks of beam to the beamlines (used also for commissioning) and 18 proposals were allocated beamtime on XAFS and 6 on the IR beamlines.Due to the delays in the running of the beamlines, the original schedules could not all be maintained and confirmations could not be adhered to, which has created dissonances and frustration among the users' community already.
Page 21. 78.Replace "60,000" with "50,000" 79.This sentence should be removed because Egyptian contribution was never frozen.80. Replace "other cases" with "another case".There were sanctions only for Iran.81."Germany, Japan, Sweden and Russia" should be taken out.Only Italy contributed financial resources.
Page 22. 82.Insert "Switzerland, Germany" as well as UK and France.83.This statement is highly speculative impossible to prove.84.I find it inappropriate that a name is mentioned.
Page 23. 85.Replace "between" with "among".86.I could not confirm that this statement is correct.

Is the background of the case's history and progression described in sufficient detail? Yes
Is the work clearly and accurately presented and does it cite the current literature?

Is the background of
the case's history and progression described in sufficient detail?Yes Is the work clearly and accurately presented and does it cite the current literature?Partly If applicable, is the statistical analysis and its interpretation appropriate?Partly Are all the source data underlying the results available to ensure full reproducibility?No source data required Are the conclusions drawn adequately supported by the results?Yes Is the case presented with sufficient detail to be useful for teaching or other practitioners?Yes Competing Interests: I am currently affiliated with the SESAME (Synchrotron light for Experimental Science and Applications in the Middle East), Allan, Jordan and can confirm that I am able to review this piece objectively.I confirm that I have read this submission and believe that I have an appropriate level of expertise to confirm that it is of an acceptable scientific standard, however I have significant reservations, as outlined above.Reviewer Report 16 September 2021 https://doi.org/10.21956/openreseurope.14432.r27430© 2021 Sayers Z.This is an open access peer review report distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.Zehra Sayers 1 Biological Sciences and Bioengineering, Faculty of Engineering and Natural Sciences, Sabancı University, Istanbul, Turkey 2 Biological Sciences and Bioengineering, Faculty of Engineering and Natural Sciences, Sabancı University, Istanbul, Turkey The paper by Runguis et al., is a detailed study of the complicated process of the SESAME laboratory's establishment.It also attempts to provide an account of the functioning SESAME facility during its early operational days at the end of 2018 and early 2019.

Figure 1 :
Change to "Schematic outline of the components of SESAME synchrotron.Experimental stations branch out from the storage ring".Reference for this figure should be given.(p. 5) 8. Caption Figure 2: Change to "Photo of the experimental Hall December 2018".Reference for this figure should be given.(p. 5) 9.I do not know of synchrotrons that are intergovernmentally funded other than SESAME.10.Footnote 9 and Figure 3: On 16 May 2017, His Majesty King Abdullah II of Jordan officially opened the SESAME research facility "in the presence of the Directors General of CERN, the International Atomic Energy Agency (IAEA) and UNESCO, the European Commissioner for Research, Science and Innovation, senior representatives of the SESAME Members and Observers" 53 .
"played by the CERN cafeteria during the Cold War where European, American and Russian scientists could meet and messages were conveyed to governments thus bringing important results".The guest house is open to users since 2019.It includes a conference venue and a cafeteria.The building also hosts a conference venue.Finally and most crucially, SESAME is putting effort into promoting the relevance of synchrotron technology for various disciplines and research in the region as well as to support the development of competence in order to exploit the facility's research potential, e.g. through training and users meetings 56 .
52Ibid.p. 179.53Ibid.p. 181. 54SESAME (2020): SESAME Brochure; retrieved from: https://www.sesame.org.jo/sites/default/files/images/Brochures/SESAME_Brochure.pdf 55Interview#4 role , between scientist and diplomats), but it is maybe even just as much a matter of personal union.4.6 Institutional environment and support from observer institutions (incl.theEU)Even though SESAME owes its initiation to a small number of individual physicists, it would not exist without the on-going support of key international and supranational institutions and its incorporation into this institutional environment.The main institutions in this environment are UNESCO, CERN, IAEA and the European Union.UNESCO has lent the institutional framework, formal recognition and the official reputation as an international science diplomacy endeavour to SESAME.The IAEA has been a major supporter for SESAME providing scientific and financial support.The Jordan Atomic Energy Commission has been providing necessary political backing in Jordan.CERN had a major impact on the technical evolution of the synchrotron and provided the constitution and raison d'etre of SESAME as a prominent and successful role model.The EU has made numerous financial contributions and enabled contributions of equipment and exchanges by experts from other institutions and members through its allocation mechanisms.It joined the project after the late institutionalization phase, however.Recently, SESAME has joined LEAPS (League of European Accelerator-based Photon Sources) as an associate member and in that it has also taken a step forward to the next level of affiliation for the self-governance of European synchrotrons.
66As of 202167Users are organized in the SESAME Users' Committee.This committee consists of one representative for each member (http://old.sesame.org.jo/sesame/users/sesame-users-committee-suc/membership.html)68Interview#5 69Interview#5 70 SESAME/AMMAN/27-C/15-14 organizations SESAME is a unique science collaboration and science diplomacy effort in the Middle East.Its core ambition is to operate an international state-of-the-art synchrotron radiation users facility in Jordan that is accessible to scientists from the members Cyprus, Egypt, Iran, Israel, Pakistan, Palestine, Turkey and Jordan.In that, it wants to advance scientific and technological development in the region and reverse brain drain.Being the first synchrotron in the Middle East region it maintains enormous potential with regards to furthering individual disciplines and research fields as well as strengthening the community of researchers in the region as a whole.SESAME also constitutes a science diplomacy effort with the aim of creating new links and intercultural understanding between scientists in this conflict affected region.The EU and European actors have played (and still play) an important role in many regards and on several layers.It enabled the allocation of resources (also from other national donors) in close cooperation with the executives and with regards to the particular needs of the facility.Resources were spent on the procurement and commissioning of technical components and even full beamlines (most recently the BEATS Project).It has funded the construction of an on-grid solar power plant in Jordan that satisfies the high electricity consumption of the particle accelerator (in that, SESAME is the first synchrotron in the world that has gone green) and in that the EU has made a major investment in the future of the synchrotron facility as well as in environmental friendly energy consumption.Thirdly, the EU has supported the development of human capacity and networks.Most importantly in that regard, the EU provided funds for OPEN SESAME, a Horizon 2020 consortium consisting of 10 European synchrotron facilities and science associations to train and advise SESAME staff and users and to connect them with each other.On top of that, the consortium aims to develop a strategy to reach out to scientists in the region, develop the users community and promote the purpose of SESAME in the regional industry.Investments (not only those of the EU, of course) are very slowly starting to pay off.The year 2018 marks the first year in which the facility is open to users on an almost regular basis and research is being conducted.Apart from the full operation of the beamlines, SESAME has brought together hundreds of (mostly young) scientists from the region in training and users meeting, and scientists from the Middle East and beyond have collaborated closely in the set-up of the facility in recent years.
18. 60.BEATS is not just in cooperation with ESRF but it is a consortium of 10 institutions in Europe: ESRF, ALBA, The Cyprus Institute, DESY, INFN, PSI, SESAME, Solaris, Elettra.ESRF is the institution leading the project.61.In this collaborative work staff of SESAME and other young facilities are involved in all the steps of setting up the beamline.62. CALIPSO is not geared towards supporting trips to SESAME.It is for supporting trips to any synchrotron facility in Europe.63.Remove "mainly" Page 19.64.Replace "lend" with "lent".65.Replace "the current staff" with "some of the current staff".66. Remove "now".67.I am not sure what is meant here.Maybe one should remove "and".68.Replace "get" with "are provided".69.Should be written in capitals.70.As mentioned in the beginning of this paragraph, SESAME has received different levels and types of support from many institutions for training.The authors have grouped the components of the funding landscape as national scientific societies, international organizations and "national" synchrotron facilities.I recommend removing "national".ESRF can be moved to the group of synchrotrons, Portugal should be taken out of the synchrotron group.Scientific societies could include the consortium Physical Societies from USA and Europe.Page 20. 71.Footnote 93: ibid for what?72.Remove "major and".IAEA training efforts are also institutionalized 73.Replace "usually…..facility)" with "in Jordan.Since 2001 only 4 took place in member countries including two in Cairo, one in Turkey and one in Isfahan".74.Replace "beam time" with "beamtime"77 75.Remove "EMIRA" 76.