7 | Bibliography

1. Semiconductor Industry Association, International Technology Roadmap for Semiconductors: 1999 Edition, Austin, TX: International SEMATECH, 1999.
2. M. L. Alles; Thin-Film SOI Emerges, IEEE Spectrum, 34, 37, Jun. 1997.
3. S. Cristoloveaunu, Introduction to Silicon on Insulator Materials and Devices, Microelectronics Engineering, 36, 145, 1997.
4. S. Cristoloveaunu, State-of-the-Art and Future of Silicon on Insulator Technologies, Materials, and Devices, Microelectronics Reliability, 40, 771, 2000.
5. J. P. Colinge, Silicon on Insulator Technology: Materials to VLSI, Kluwer Academic Publishers, 1991.
6. J. P. Colinge, Silicon-On-Insulator Technology: Past Achievements and Future Prospects, MRS Bulletin, 16, Dec. 1998.
7. D. Flandre, Silicon-On-Insulator Technology for High Temperature Metal Oxide Semiconductor Devices and Circuits, Materials Science and Engineering, B29, 7, 1995.
8. J.-L. Leray, Buried Oxides: Where We Have Been and Where We are Going, Journal of Non-Crystalline Solids, 187, 10, 1995.
9. M. A. Mendicino; Vasudev, P. K.; Maillot, P.; Hoener, C.; Baylis, J.; Bennett, J.; Boden, T.; Jackett, S.; Huffman, K.; & Godwin, M., Silicon-On-Insulator Material Qualification for Low-Power Complementary Metal-Oxide-Semiconductor Application, Thin Solid Films, 270, 578, 1995.
10. A. Plößl; Kräuter, G., Silicon-On-Insulator: Materials Aspects and Applications, Solid State Electronics, 44, 775, 2000.
11. M.-A Hasan; Sundgren, J. E.; Greene, J.E., Solid-Metal Mediated Molecular Beam Epitaxy (SMIM-MBE) of Si(111) at a Buried Interface: A New Epitaxial Growth Method, 42nd National AVS Symposium, Minneapolis, MN, Oct. 16-20, 1995.
12. M.-A. Hasan; Sundgren, J. E.; Greene, J. E., Epitaxial Growth of Si(111) at Buried Interfaces using Solid-Metal Mediated Molecular Beam Epitaxy, 1996 MRS Spring Meeting, San Francisco, CA, April 8-12, 1996.
13. T. LaFave Jr.; Lakshminarayana, N.; Sharer, F. B.; Faik, A.; & Hasan, M.-A., Fabrication of Buried Oxide Structures at Low-Temperature (\(T_s\lt500^\circ \textrm{C}\)) using Solid-Metal-Mediated Molecular Beam Epitaxy, AVS-First International Conference on Microelectronics and Interfaces, Santa Clara, CA, Feb. 7-11, 2000.
14. S. A. Campbell, The Science and Engineering of Microelectronic Fabrication, Oxford University Press, 1996.
15. S. M. Sze, VLSI Technology, Bell Telephone Laboratory, Inc, 1983.
16. B. G. Streetman, Solid State Electronic Devices, Prentice Hall, 1997.
17. S. Matsumoto & Yachi, T., Effect of Buried Oxide Thickness in a Thin-Film Silicon on Insulator Power Metal-Oxide-Semiconductor Field-Effect Transistor, Japanese Journal of Applied Physics, 36, 3438, 1997.
18. J. R. Brews; Fichtner, W.; Nicollian, E. H.; & Sze, S. M., Generalized Guide for MOSFET Miniaturization, IEEE Electron Device Letters, EDL-1, Jan. 1980.
19. E. H. Nicollian & Brews; J. R., MOS Physics and Technology, Wiley, 1982.
20. S. Wolf, Silicon Processing for the VLSI Era: The Submicron MOSFET, Vol. 3, Lattice Press, 1994.
21. N. W. Ashcroft & Mermin, N. D., Solid State Physics, Cornell University, 1976.
22. C. Kittel, Introduction to Solid State Physics, 7th ed. Wiley, 1996.
23. N.-K. Tu; Mayer, J. W.; & Feldman, L. C., Electronic Thin Film Science for Electrical Engineers and Materials Scientists, Macmillan, 1992.
24. M.-A. Hasan,; Radnoczi, G.; Sundgren, J. E.; and Hansson, G. V., Epitaxial growth of Al on Si by thermal evaporation in ultra-high vacuum: growth on Si(100)\(2\times 1\) single and double domain surfaces at room temperature, Surface Science, 236, 53, 1990.
25. O. Hellman, Topics in Solid Phase Epitaxy: Strain, Structure and Geometry, Materials Science and Engineering, R16, No. 1, Jan. 1996.
26. F. H. Wohlbier, Diffusion and Defect Data -- Solid State Data, Trans Tech Publications, 47, 1986.
27. R. E. Schlier & Farnsworth, H. E., Structure and Adsorption of Clean Surfaces of Germanium and Silicon, J. Chem. Phys. 30, 4, Apr. 1959.
28. I.-W. Lyo; Kaxiras, E.; & Avouris, Ph.; Adsorption of Boron on Si(111): Its Effect on Surface Electronic States and Reconstruction, Phys. Rev. Let. 63, 12, Sept. 18, 1989.
29. P. Bedrossian; Meade, R. D.; Mortensen, K.; Chen, D. M.; Golovchenko, J. A.; & Vanderbilt, D., Surface Doping and Stabilization of Si(111) with Boron, Phys. Rev. Lett. Sept. 18, 1989.
30. W. C. Fan; Ignatiev, A.; Huang, H.; & Tong, S. Y.; Observation and Structural Determination of \((\sqrt{3}\times \sqrt{3})\textrm{R}30^\circ \) Reconstruction of the Si(111) Surface, Phys. Rev. Lett., 62, 13, Mar. 27.
31. R. L. Headrick; Robinson, I. K.; Vleig, E.; & Feldman, L. C.; Structure Determination of the Si(111):B\((\sqrt{3}\times \sqrt{3})\textrm{R}30^\circ \) Surface; Subsurface Substitutional Doping, Phys. Rev. Lett., 63, 12, Sept. 18, 1989.
32. J. Nogami; Baski, A. A.; & Quate, C. R., Aluminum on the Si(100) Surface: Growth of the First Monolayer, Phys. Rev. B, 44, 1415,1991.
33. J. E. Northrup; Schabel, M. C.; Karlsson, C. G.; & Uhrberg, R. I. G., Structure of Low-Coverage Phases of Al, Ga, and In on Si(100), Phys. Rev. B, 44, 13799, 1991.
34. H. Sakama; Murakami, K.; Nishikata, K.; & Kawazu, A., Structural Determination of Si(100)\(2\times 2\)-Al by Tensor LEED, Phys. Rev. B, 48, 5278, 1993.
35. C. Zhu; Misawa, S.; & Tsuhkahara, S., Initial Stage of Aluminum Thin Film Growth on Si(100) Surface as Observed by Scanning Tunneling Microscopy, Surface Science, 325, 279, 1995.
36. T. I. M. Bootmas & HIbma T., Strain-Relieve Transition in Epitaxial Growth of Metals on Si(111)(\(7\times 7\)), J. Cryst. Growth, 127, 678, 1993.
37. C. R. Crowell, Metal-Semiconductor Interfaces, Surf. Sci., 13, 1969.
38. K. D. Brommer; Needels, M.; Larson, B. E.; Joannopoulos, J. D., Ab Initio Theory of the Si(111)-(\(7\times 7\)) Surface Reconstruction: A Challenge for Massively Parallel Computation, Phys. Rev. Lett., 68, 9, Mar. 2, 1992.
39. I. Štich; Payne, M. C.; King-Smith, R. D.; Lin, J.-S.; & Clarke, L. J., Ab Initio Total-Energy Calculation for Extremely Large Systems: Application to the Takayanagi Reconstruction of Si(111), Phys, Rev. Lett., 68, 9, Mar. 2, 1992.
40. R. S. Wagner & Ellis, W. C., Vapor-Liquid Solid Mechanism of Single Crystal Growth, Appl. Phys. Lett., 4, 89, 1964. DOI
41. R. S. Wagner & Ellis, W. C., Trans. Metall. Soc, A.I.M.E., 233, 1053 1965.
42. F. Xiong; Ganz, E.; Loese, A. G.; Golovchenko, J. A.; Spaepen, F., Liquid Metal Mediated Homoepitaxial Film Growth of Ge at Low Temperature, Appl. Phys. Lett., 59(27) Dec. 20, 1991, 3586.
43. G. Majni & Ottaviani, G., Solid Phase Epitaxial Growth of Si Through Al Film, Proceedings of the Symposium on Thin Film Phenomena Interfaces and Interactions, 78-2 293, 1978.
44. B. Y. Tsaur; Turner, G. W.; & Fan, J. C., Appl Phys. Lett. 39, 749 1981.
45. A. Paccagnellas; Ottaviani, G.; Fabbri, P.; Queirolo, G.; Thin Solid Films, 128, 217, 1985.
46. W. Rosnowski; Aluminum Diffusion into Silicon in an Open Tube High Vacuum System, J. Electrochem. Soc. 125 6 1978.
47. R. Drosd; & Washburn, J., Some Observations on the Amorphous to Crystalline Transition in Silicon, J. Appl. Phys, 53, 397, 1982.
48. Y. Kunii; Tabe, M.; & Kajiyama, K., Formation of a Silicon-On-Insulator Structure by Solid Phase Epitaxy, Silicon On Insulator: Its Technology and Applications, 209, 1985.
49. S. Krause; Anc, M.; & Roitman, P., Evolution and Future Trends of SIMOX Material, MRS Bulletin, 25, Dec. 1998.
50. J. B. Lasky, Wafer Bonding for Silicon-On-Insulator Technologies, Appl. Phys. Lett. 48, 78, 1986.
51. S. Blackstone, Recent Advances in Wafer Bonding of Silicon and Alternative Materials, Microelectronics Engineering, 48, 313, 1999.
52. C. A. Desmond-Colinge; & Gösele, U.; Wafer-Bonding and Thinning Technologies, MRS Bulletin, 30, Dec. 1998.
53. K. Izumi, History of SIMOX Material, MRS Bulletin, 20, Dec. 1998.
54. M. Bruel, The History, Physics and Applications of the Smart-Cut^® Process, MRS Bulletin, 35, Dec, 1998.
55. K. J. Weber; Catchpole, K.; & Blakers, A. W.; Epitaxial Lateral Overgrowth of Si on (100)Si Substrates by Liquid-Phase Epitaxy, J. Cryst. Growth, 186, 369, 1998.
56. C. C. Chang; & Chen, L. C.; A new process for the fabrication of silicon-on-insulator structures by using porous silicon, Mater. Lett., 32, 287, 1997.
57. H. Ishiwara; Tamba, A.; & Furukawa, S., Lateral solid phase epitaxy of amorphous Si films onto nonplanar SiO₂ patterns on Si substrates, Appl. Phys. Lett. 48, 773, 1986.
58. M. Tamura, M. Miyao, T. Tokuyama, H. Yamamoto, H. Ishiwara, & S. Furukawa, Characterization of solid phase epitaxially grown Si films on SiO₂, Silicon On Insulator: Its Technology and Applications, 231, 1985.
59. T. Saito & I Ohdomari, Modeling of interface atomic arrangement for analysis of solid phase epitaxy and silicon-on-insulator structure, Silicon On Insulator: Its Technology and Applications, 171, 1985.
60. A. Auberton-Herve, A. Wittkower, & B. Aspar, SIMOX -- A new challenge for ion implantation, Nuclear Instrumentation and Methods in Physics Research B, B 96, 420, 1995.
61. J. P. Colinge, The development of CMOS/SIMOX technology, Microelectronics Engineering, 28, 423, 1995.
62. K. Kajiyama, Buried-oxide layer formation by high-does oxygen-ion implantation into Si wafers: SIMOX (Separation by Implanted Oxygen), Appl. Surf. Sci, 85, 259, 1995.
63. B. Aspar, M. Bruel, H. Moriceau, C. Maleville, T. Poumeyrol, A. M. Papon, A. Claverie, B. Benassayag, A. J. Auberton-Herve, & T. Barge, Basic mechanisms involved in the Smart-Cut^® Process, Microelectronics Engineering, 36, 233, 1997.
64. R. S. Timsit, W. G. Waddington, C. J. Humphreys, & J. L. Hutchinson, Structure of the Al/Al₂O₃ interface, Appl. Phys. Lett. 46(9) 1985.
65. R. Hull, & J. C. Bean, Misfit disclocations in lattice-mismatched epitaxial films, Critical Reviews in Solid State and Materials Sciences, 17, 507 1992.
66. J. H. Van der Merwe, Misfit dislocation generation in epitaxial layers, Critical Reviews in Solid State and Materials Sciences, 17, 187, 1991.
67. N. Lashminarayana; A New Method for Self-Aligned Fabrication of Source-Drain Strucgtures using SMM-MBE, M.S. Thesis, University of North Carolina at Charlotte, Department of Electrical and Computer Engineering, 2001.
68. J. W. H. Maes, P. W. Lukey, T. Zijlstra, C. Visser, J. Caro, E. W. J. M. van der Drift, F. D. Tichelaar, & S. Radelaar, Preparation of nanometer-scale windows in SiO2 for selective epitaxial growth of Si based devices, Microelectronics Engineering, 35, 321, 1997.
69. G. B. Arfken & H. J. Weber, Mathematical Methods for Physicists, Academic Press, 1995.
70. E. Kreyszig; Advanced Engineering Mathematics, 7th ed. 1993.