Raman Microscopy Investigations and Electrical Characterisation of Indentation-Induced Phase Transformations in Silicon

Maha M. Khayyat; David G. Hasko; Munawar M. Chaudhri

doi:10.4028/www.scientific.net/MSF.480-481.225

Paper Titles

Undercooling of Eutectic Sn-57wt%Bi Alloy
p.201

Effect of Laser Process Parameters on the Surface Absorbtivity
p.207

Comparisons on Doping of Different Alkyl Compound on SiO₂ to Form a Low-k Dielectric Material
p.213

The Growth of Porous Layer on Resistive P-Type Silicon in HF/Ethylene Glycol under Illumination
p.217

Raman Microscopy Investigations and Electrical Characterisation of Indentation-Induced Phase Transformations in Silicon
p.225

Non-Destructive Observation of Damage Processes in Loaded High Ductile Specimens with Different Crack Configuration by X-Ray Dynamic Defectoscopy
p.231

Cd_1-xMn_xS Nanoparticles: Far-Infrared Phonon Spectroscopy
p.237

Estimation of Selenium Consumption during Selenization of Cu-In Metallic Layer in a Quazi-Closed System
p.243

Bioimpedance Spectra of Small Particles in Liquid Solutions: Mathematical Modeling of Erythrocyte Rouleaux in Human Blood
p.251

HomeMaterials Science ForumMaterials Science Forum Vols. 480-481Raman Microscopy Investigations and Electrical...

Raman Microscopy Investigations and Electrical Characterisation of Indentation-Induced Phase Transformations in Silicon

Abstract:

Indentation-induced structural phase transitions in single crystal Si(100) and amorphous silicon a-Si have been investigated for indentations made at room temperature and at 77 K. The experimental techniques employed were (1) Raman microscopy and (2) in situ electrical resistance measurement of the indentation region of the plastically deformed silicon. The Raman spectra from residual indentations revealed that although phase transitions did occur when indentations were made at room temperature, there were no phase transitions when indentations were made at 77 K. This difference in behaviour has been explained on the rise of temperature during the room temperature indentations, which may assist the phase transition process. The in situ electrical measurements have revealed that the deformed Si(100) yielded Ohmic behaviour, consistent with the view that during the indentation the cubic silicon transforms to the beta-Sn metallic phase (i.e. body-centre tetragonal).

You might also be interested in these eBooks

Cross-Disciplinary Applied Research in Materials Science and Technology

View Preview

Info:

Periodical:

Materials Science Forum (Volumes 480-481)

Pages:

225-230

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.480-481.225

Citation:

Cite this paper

Online since:

March 2005

Authors:

Maha M. Khayyat, David G. Hasko, Munawar M. Chaudhri

Keywords:

Indentation, I-V Characteristic, Phase Transformation, Raman Spectroscopy, Silicon

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

References

[1] S. Minomura and H.G. Drickamer: J. Phys. Chem. Solids Vol. 23 (1962), p.451.

Google Scholar

[2] J. Z. Hu, L.D. Merkle, C.S. Menoni and I.L. Spain: Phys. Rev. B Vol. 34 (1986), p.4679.

Google Scholar

[3] I.V. Gridneva, Y.U. Milman, Y. U. and V.I. Trevilov: Phys. Stat. Solidi a Vol. 14 (1972), p.177.

Google Scholar

[4] D.R. Clarke, M.C. Kroll, P.D. Kirchner, R.F. Cook and B.J. Hockey: Phys. Rev. Lett., Vol. 60 (1988), p.2156.

Google Scholar

[5] H. Saka, A. Shimatani, M. Suganuma and M. Superijadi: Philos. Mag. A Vol. 82 (1971), p.124.

Google Scholar

[6] J. Jimenez, E. Martin, A. Torres, B. Martin, F. Rull and F. Soborn: J. Mater. Sci. Vol. 4 (1993), p.271.

Google Scholar

[7] V. Domnich, Y. Gogotsi and S. Dub: Appl. Phys. Lett. Vol. 76 (2000), p.2214.

Google Scholar

[8] M.M. Khayyat, G.K. Banini, D.G. Hasko and M.M. Chaudhri: J. Phys. D: Appl. Phys. Vol. 36 (2003), p.1300.

Google Scholar

[9] R.J. Kobliska, S.A. Solin, M. Solders, R.K. Chang, R. Alben, M.F. Thorpe and D. Weaire: Phys. Rev. Lett. Vol. 29 (1972), p.725.

DOI: 10.1103/physrevlett.29.725

Google Scholar

[10] G. Weill, J.L. Mansot, G. Sagon, C. Carlone and J.M. Besson: Semicond. Sci. Technol. Vol. 4 (1989), p.280.

DOI: 10.1088/0268-1242/4/4/029

Google Scholar

[11] D. Beeman, R. Tsu and M.F. Thorpe: Phys. Rev. B Vol. 32 (1985), p.874.

Google Scholar

[12] M. Hanfland and K. Syassen: High pressure Research Vol. 3 (1990), p.242.

Google Scholar