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Influence of Neutron Transmutation Doping on Optical Properties of Ge nanocrystals Prepared by Ion implantation

Published online by Cambridge University Press:  26 February 2011

Shaobo Dun
Affiliation:
[email protected], Sichuan University, Department of Physics, China, People's Republic of
Tiecheng Lu
Affiliation:
[email protected], Sichuan University, Department of Physics, China, People's Republic of
Qiang Hu
Affiliation:
[email protected], Sichuan University, Department of Physics, China, People's Republic of
Ningkang Huang
Affiliation:
[email protected], Sichuan University, Department of Physics, China, People's Republic of
Songbao Zhang
Affiliation:
[email protected], China Academy of Engineering Physics, Institute of Nuclear Physics and Chemistry, China, People's Republic of
Bin Tang
Affiliation:
[email protected], China Academy of Engineering Physics, Institute of Nuclear Physics and Chemistry, China, People's Republic of
Junlong Dai
Affiliation:
[email protected], China Academy of Engineering Physics, Institute of Nuclear Physics and Chemistry, China, People's Republic of
Lev Resnick
Affiliation:
[email protected], Bar-Ilan University, Department of Physics, Israel
Issai Shlimak
Affiliation:
[email protected], Bar-Ilan University, Department of Physics, Israel
Sha Zhu
Affiliation:
[email protected], University of Michigan, Department of Neclear Engineering and Radiological Sciences, United States
Qiangmin Wei
Affiliation:
[email protected], University of Michigan, Department of Neclear Engineering and Radiological Sciences, United States
Lumin Wang
Affiliation:
[email protected], University of Michigan, Department of Neclear Engineering and Radiological Sciences, United States
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Abstract

Ge nanocrystals embedded in an amorphous SiO2 film on Si matrix were prepared by ion implantation and subsequent annealing. Neutron transmutation doping (NTD) technique was used for doping Ge nanocrystals with As impurities. The microstructure, phase and photoluminescence of NTDed Ge nanocrystals were analyzed and compared with undoped Ge nanocrystals. A new photoluminescence peak related to As impurities was found. It is discovered that impurities are expelled from larger clusters resulted from Ge nanocrystal aggregation on the sample surface. To prevent nanocrystal aggregation and assure uniform doping of As, it is necessary to adopt appropriate implantation and annealing conditions.

Type
Research Article
Copyright
Copyright © Materials Research Society 2006

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References

1 Shlimak, I. S., Physics of the Solid State 41, 716 (1999).Google Scholar
2 Brus, L. E., J. Chem. Phys. 79, 5566 (1983).Google Scholar
3 Alivisatos, A. P., Science 271, 933 (1996).Google Scholar
4 Herzer, H., “Semiconductor SiliconPrinceton. Press. 106 (1977)Google Scholar
5 Scheweinler, H. C., J. Appl. Phys. 30, 1125 (1959).Google Scholar
6 Norris, D. J., Yao, N., Charnock, F. T. and Kennedy, T. A., Nano. Lett. 1, 3 (2001).Google Scholar
7 Bhargava, R. N., Gallagher, D., Hong, X. and Nurmikko, A., Phys. Rev. Lett. 72, 416 (1994).Google Scholar
8 Stowell, C. A., Wiacek, R. J., Saunders, A. E. and Korgel, B. A., Nano. Lett. 3, 1441 (2003).Google Scholar
9 Heng, C. H., Finstad, T. G., Storas, P., Li, Y. J., Gannas, A. E. and Nilsan, O., Appl. Phys. Lett. 85, 4475 (2004).Google Scholar
10 Tetelbaum, D.I., Trushin, S.A., Burdov, V.A., Golovanov, A.I., Revin, D.G., Gaponova, D.M., Nucl. Instr. Meth. B. 174, 123 (2001).Google Scholar
11 Kachurin, G.A., Cherkova, S.G., Volodin, V.A., Kesler, V.G., Gutakovsky, A.K., Cherkov, A.G., Bublikov, A.V., Tetelbaum, D.I.. Nucl. Instr. Meth. B. 222, 497 (2004).Google Scholar
12 Van Grieken, Rene E, Markowicz, A, Van Grieken, Van Grieken, “Characteristic X-ray Wavelength and Energy”, Handbook of X-Ray Spectrometry, ed. Grieken, R. E.Van and Markowicz, A. A. (Marcel Dekker, 2001) pp.47.Google Scholar
13 Zacharias, M. and Fauchet, P. M., Appl. Phys. Lett. 71, 21 (1997).Google Scholar
14 Giri, P. K., Kesavamoorthy, R. and Nair, K. G. M., Solid State Commun. 33, 229 (2005).Google Scholar
15 Wilcoxon, J. P., Provencio, P. P. and Samara, G. A., Phys. Rev. B 64, 035417 (2001).Google Scholar
16 Shen, J. K., Wu, X. L., Yuan, R. K., Tang, N., Zou, J. P., Mei, Y. F., Tan, C., Bao, X. M. and Siu, G. G., Appl. Phys. Lett. 77, 3134 (2000).Google Scholar
17 Campbell, I. H. and Fauchet, P. M., Solid State Commun. 58, 739 (1986).Google Scholar
18 Eriwin, S. C., Zu, L. J. and Haftel, M. I., Nature 436, 91 (2005).Google Scholar