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Recent Developments in High Resistivity Detector-Grade CdTe

Published online by Cambridge University Press:  21 February 2011

M. Hage-Ali  and
P. Siffert
M. Hage-Ali
Affiliation:
Centre de Recherches Nucléaires (IN2P3), Laboratoire PHASE (UPR 292 du CNRS), BP 20, 67037 Strasbourg Cedex 2 (France)
P. Siffert
Affiliation:
Centre de Recherches Nucléaires (IN2P3), Laboratoire PHASE (UPR 292 du CNRS), BP 20, 67037 Strasbourg Cedex 2 (France)
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Abstract

We present a brief review of results concerning the doping or compensation of CdTe by different elements like halogen, group IV, hydrogen and 3d transition elements for high resistivity materials. Comparison with theoretical models and discussion of results under this light is provided.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 302: Symposium F – Semiconductors for Room-Temperature Radiation Detector Applications , 1993 , 479
Copyright
Copyright © Materials Research Society 1993

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References

REFERENCES

1. Rev. Phys. Appl. 12 (2), 1977.Google Scholar
2. Samimi, M., Thesis, Université Louis Pasteur, Strasbourg, 1989.Google Scholar
3. Biglari, B., Thesis, Université Louis Pasteur, Strasbourg, 1989.Google Scholar
4. Zanio, K., Montano, H. and Krajenbrink, D.F., Appl. Phys. Lett. 27, 159 (1975).Google Scholar
5. Cornet, A., Thesis, Universiti Louis Pasteur, Strasbourg, 1976.Google Scholar
6. Wald, F., Bell, R.O. and Serreze, H.B., Rep. Na. AT. 3 (11-1), 545 (1973).Google Scholar
7. Siffert, P., Comet, A., Stuck, R., Triboulet, R. and Marfaing, Y., IEEE Trans. Nucl. Sci. NS, 22 (1), 221 (1975).Google Scholar
8. Höschl, P., Polivka, P., Prosser, V., Vanecek, M.S. and Skrivankova, M., ref. 1. p. 229.Google Scholar
9. Iwase, Y., Funaki, M., Onosuka, A. and Ohmori, M., Nucl. Instr. and Meth. in Phys. Rev. A, 322, 628 (1992).Google Scholar
10. Hage-Ali, M. and Siffert, P., Nucl. Instr. and Meth. in Phys. Rev. A, 322, 313 (1992).Google Scholar
11. Lorenz, M.R. and Segall, B., Phys. Lett. 7, 18 (1963).Google Scholar
12. Bell, R.O., Wald, F., IEEE Trans. Nucl. Sci. NS, 21, 331 (1974).Google Scholar
13. Molva, E., Chamonal, J.P. and Pautrat, J.L., Phys. Stat. Sol. B, 109, 635 (1982).Google Scholar
14. Chamonal, J.P. and Molva, E., Physica B, 116, 519 (1983).CrossRefGoogle Scholar
15. Biglari, B., Samimi, M., Koebel, J.M., Hage-Ali, M. and Siffert, P., Phys. Stat. Sol. A, 100, 589 (1987).Google Scholar
16. Mergui, S., Thesis, Université Louis Pasteur, Strasbourg, 1991.Google Scholar
17. Mergui, S., Hage-Ali, M., Koebel, J.M. and Siffert, P., Nucl. Instr. and Meth. in Phys. Rev. A, 322, 381 (1992).Google Scholar
18. Launay, J.C., Mazoyer, V., Tapiera, M., Zielinger, J.P., Guellil, Z., Delaye, P. H. and Roosen, G., Appl. Phys. A, 55, 33 (1992).CrossRefGoogle Scholar
19. Jantsch, W., Brunthaler, G. and Heudorfer, G., Mat. Sci. Forum 10–12, 515 (1986).CrossRefGoogle Scholar
20. Lischka, L., Brunthaler, G. and Pahnetshofer, L., J. Cryst. Growth 72, 355 (1985).CrossRefGoogle Scholar
21. Chibani, L., Hage-Ali, M., Stoquert, J.P., Koebel, J.M. and Siffert, P., Mat. Sci. and Eng. B, 16, 202 (1993).Google Scholar
22. Jantsch, W. and Hendorfer, G., J. Cryst. Growth 101, 404 (1990).Google Scholar
23. Bilbe, R.M., Nicholls, J.E. and Davies, J.J., Phys. Stat. Sol. B, 121, 339 (1984).Google Scholar
24. Scharager, C., Siffert, P., Hoschl, P., Moravec, P. and Vanecek, M., Phys. Stat. Sol. A, 66, 87 (1981).Google Scholar
25. Yekimovitch, V.N. (private communication).Google Scholar
26. Babii, P.I., Slynko, V.V. and Gantenko, Yu. P., Soy. Phys. S.C. 24, 904 (1990).Google Scholar
27. Godlewski, M. and Baranowski, J.M., Phys. Stat. Sol. B, 97, 281 (1980).Google Scholar
28. Deybuk, V.G. et al. , Isv. Vuzov, Fizika 4, 24 (1982) (in russian).Google Scholar
29. Hendorfer, G.H., Brunthaler, G., Jantsch, W., Reisinger, J. and Sitter, H., J. Cryst. Growth 86, 497 (1988).Google Scholar
30. Raiskin, E. and Butler, J.F., IEEE Trans. Nucl. Sci. 35, 81 (1988).Google Scholar
31. Butler, J.F., Lingren, C.L. and Doty, F.P., IEEE Trans. Nucl. Sci. 39, 605 (1982).Google Scholar
32. Butler, J.F., Doty, F.P., Apotovsky, B., Lajzerowicz, J. and Verger, L., Mat. Sci. and Eng. B, 16, 291 (1993).Google Scholar
33. Verger, L., Thesis, Université Grenoble, 1993.Google Scholar
34. Nobel, D. De, Philips Res. Rep. 14, 361 (1959).Google Scholar
35. Krtöger, F.A., J. Phys. Chem. of Solids 26, 1717 (1965).Google Scholar
36. Bell, R.O., Wald, F., Canali, C., Nava, F. and Ottaviani, G., IEEE Trans. Nucl. Sci. NS, 21, 331 (1974).Google Scholar
37. öschl, P., Grill, R., Franc, J., Moravec, P. and Belas, E., Mat. Sci. and Eng. B, 16, 215 (1993).Google Scholar
38. Smith, F.T.J., Metall. Trans. 1, 617 (1970).Google Scholar
39. Hofmann, D.M., Stadler, W., Oettinger, K. and Meyer, B.K., Mat. Sci. and Eng. B, 16, 128 (1993).Google Scholar
40. Meyer, B.K., Linke, H., Omling, P., Salk, M. and Benz, F.W., Mat. Sci. and Eng. B, 16, 243 (1993).Google Scholar