Title |
Shape Optimization for the ESRF II Magnets |
Authors |
- G. Le Bec, J. Chavanne, P. N'gotta
ESRF, Grenoble, France
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Abstract |
Magnets are a keystone of the ESRF upgrade programme. The specifications of the magnets of the ESRF II lattice are stringent: high gradients, extended Good Field Region (GFR) and vertical gaps large enough for the X-ray beam ports. The magnet design approach is presented here. Shape optimization of the magnet poles is systematically used. The magnet design is treated as an ill-posed, non linear, constrained problem. Iterative algorithms have been developed; the algorithms converge in less than 10 iterations, leading to very short computation time. This design method has been applied to high gradient quadrupole magnets. The shape optimization leads to original pole profiles.
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Paper |
download TUPRO082.PDF [0.244 MB / 3 pages] |
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Conference |
IPAC2014, Dresden, Germany |
Series |
International Particle Accelerator Conference (5th) |
Proceedings |
Link to full IPAC2014 Proccedings |
Session |
Poster Session, Ronaldo Area |
Date |
17-Jun-14 16:00–18:00 |
Main Classification |
07 Accelerator Technology Main Systems |
Sub Classification |
T09 Room Temperature Magnets |
Keywords |
multipole, quadrupole, magnet-design, software, lattice |
Publisher |
JACoW Publishing, Geneva, Switzerland |
Editors |
Christine Petit-Jean-Genaz (CERN, Geneva, Switzerland); Gianluigi Arduini (CERN, Geneva, Switzerland); Peter Michel (HZDR, Dresden, Germany); Volker RW Schaa (GSI, Darmstadt, Germany) |
ISBN |
978-3-95450-132-8 |
Published |
July 2014 |
Copyright |
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