Hostname: page-component-78c5997874-fbnjt Total loading time: 0 Render date: 2024-11-19T12:24:01.371Z Has data issue: false hasContentIssue false

Use of a Monte-Carlo Code to Determine in High Z Semi-Conductor CdTe and CZT, Both Carriers Lifetimes and Mobilities

Published online by Cambridge University Press:  10 February 2011

E. Muller
Affiliation:
CNRS LABORATOIRE PHASE (UPR 292) BP 20, 67037 STRASBOURG CEDEX 2, FRANCE
M. Jung
Affiliation:
CNRS LABORATOIRE PHASE (UPR 292) BP 20, 67037 STRASBOURG CEDEX 2, FRANCE
P. Fougfères
Affiliation:
CNRS LABORATOIRE PHASE (UPR 292) BP 20, 67037 STRASBOURG CEDEX 2, FRANCE
M. Hage-Ali
Affiliation:
CNRS LABORATOIRE PHASE (UPR 292) BP 20, 67037 STRASBOURG CEDEX 2, FRANCE
P. Siffert
Affiliation:
CNRS LABORATOIRE PHASE (UPR 292) BP 20, 67037 STRASBOURG CEDEX 2, FRANCE
Get access

Abstract

This paper deals with a comparison between experimental gamma-ray spectra recorded with CdTe and CdZnTe detectors and a Monte Carlo code simulating the spectrum, in order to extract realistic values of the transport properties of both electrons and holes in these materials. In a second section, these values are compared to that obtained by others using other methods, in order to evaluate the accuracy of the various experimental procedures.

Type
Research Article
Copyright
Copyright © Materials Research Society 1998

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Scheiber, C. and Chambron, J., Nuclear Instruments and Methods, A 322 (1992) 604; ie A 380 (1996) 385.Google Scholar
2. Siffert, P., Gonidec, J.P., F.V. Wald. Nucl. Instr. Meth. 115 (1974)13.Google Scholar
3. Fasasi, M.K., Modélisation des Réponses du Silicium et du Tellurure de Cadmium aux Rayonnements gamma et Neutron. Applications à la Dosimétrie, Thesis, Strasbourg Universit Louis Pasteur (1987).Google Scholar
4. Heitler, , “Quantum Theory of Radiation”, Oxford (1954).Google Scholar
5. Manfredotti, C. and Nastasi, U., Simulation of HgI2 semiconductors by a Monte-Carlo method, Nuclear Instruments and Methods, 255(1984), p. 138.Google Scholar
6. Grosswendt, B. and Waibel, E., Nuclear Instruments and Methods, 131(1975) 143.Google Scholar
7. Toney, J.E. and Schlesinger, T.E., Modeling and Simulation of Uniformity Effects in Cd1−xZnxTe Gamma-Ray Spectrometers.Google Scholar
8. Toney, J.E., Brunett, B.A., Schlesinger, T.E., Van Scyoc, J.M., James, R.B., Schieber, M., Goorsky, M., Yoon, H., Eissler, E., Johnson, C. Nucl. Instr. Meth. A 380 (1996) 132.Google Scholar
9. Stuck, R., Ponpon, J.P., Berger, R., Siffert, P. Radiation effects 20(1973) 75.Google Scholar
10. Manfredotti, C., Fizzotti, F., Polesello, P., Vittone, E. Nucl. Instr. Meth. A 380 (1996) 145.Google Scholar
11. Burshtein, Z., Jayatirtha, H.N., Burger, A., Butler, J.F., Apotovsky, B., Doty, F.P. Appl. Phys. Lett. 63 (1993) 102.Google Scholar
12. Butler, J.F., Doty, F.P., Apotovsky, B., Lazerowicz, L., Verger, L. Mat. Science & Eng. B16 (1993) 291.Google Scholar
13. Johnson, C.J., Eisler, E.E., Cameron, S.E., Kong, Y., Jonanovic, S., Lynn, K.G. MRS Conference Series Vol.302 (1993) 463.Google Scholar
14. Luke, P.N. IEEE Trans. Nucl. sci. 42,4(1995) 207.Google Scholar
15. Lund, J.C., Olsen, R.W., James, R.B.,Van Sycoc, J.M., Eissler, E.E., Blakeley, M.M., Glick, J.B., Johnson, C.J. Nucl. Instr. Meth. A 377 (1996) 479.Google Scholar
16. Rosaz, M. Thesis Grenoble (1997).Google Scholar
17. Toney, J.E., Brunett, B.A., Schlesinger, T.E., Scyoc, J.M.V., Antolak, A., Morse, D., Lund, J., James, R.B. SPIE Proc. Aug. 2859 (1996) 17.Google Scholar
18. Nemirovsky, Y., Ruzin, A., Asa, G., Gorelik, J. J. Electronic Mat. 28 (1996) 1221.Google Scholar
19. Sung-Shik Yoo, Rodrichs, B., Shastri, S.D., Montanol, P. SPIE 2859(1996) 50.Google Scholar
20. Eisen, Y. to be published (1997).Google Scholar
21. Toussignant, O., Hamel, L.A., Courville, J.F., Paki, P., Macri, J.R., Larson, K., Mayer, M., McConell, M.L., Ryan, J.M. Proc. SPIE 3115(1997) 214.Google Scholar
22. Attix, F.H. and Roesch, W.C., Radiation Dosimetry, Academic, New-York, 1968.Google Scholar
23. Slapa, M. Hunt, G.C. Seibt, W. Scheiber, M. and Randte, P., IEEE Trans. Nucl. Sci., NS–27 (1980) 276.Google Scholar