电邮这篇文章 Investigation of X-ray diffraction limitations upon the analysis of tellurium-atom injection into GaAs epitaxial layers
- 作者: Drozdov Y.N.1,2, Danil’tsev V.M.1, Drozdov M.N.1, Yunin P.A.1,2, Demidov E.V.1, Folomin P.I.3, Gritsenko A.B.3, Korolev S.A.1, Surovegina E.A.1
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隶属关系:
- Institute for Physics of Microstructures
- Lobachevsky State University of Nizhny Novgorod
- National University of Science and Technology MISiS
- 期: 卷 11, 编号 2 (2017)
- 页面: 361-365
- 栏目: Article
- URL: https://journals.rcsi.science/1027-4510/article/view/192289
- DOI: https://doi.org/10.1134/S1027451017020069
- ID: 192289
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详细
GaAs lattice “superdilation” caused by an introduced tellurium impurity, which is well known in publications, is experimentally studied. This phenomenon consists in the fact that the GaAs-lattice dilation can be more than 10 times greater than expansion that would appear upon the replacement of arsenic atoms with tellurium atoms if calculations are performed using the current-carrier concentration and Vegard’s law. The given phenomenon has already been observed at nTe > 3 × 1018 cm–3. A series of GaAs epitaxial layers heavily doped with tellurium and grown via metal-organic chemical vapor deposition are investigated using high-resolution X-ray diffractometry (HRXRD), secondary-ion mass spectrometry (SIMS), and the Hall effect. It is demonstrated that, despite a high Te concentration (1020‒1021 cm–3) in the layer and variations in the growth conditions, the concentration estimates based on HRXRD data depend linearly on the results of elemental analysis performed by means of SIMS. The GaAs lattice expands even somewhat slighter as compared to the case where arsenic atoms are replaced with all Te atoms injected into the layer. At the same time, the Hall carrier concentration decreases sharply beginning at 2 × 1020 cm–3. In accordance with the obtained results, the examined phenomenon can be interpreted as the strong compensation of donor and acceptor carriers rather than as superdilation.
作者简介
Yu. Drozdov
Institute for Physics of Microstructures; Lobachevsky State University of Nizhny Novgorod
编辑信件的主要联系方式.
Email: drozdyu@ipmras.ru
俄罗斯联邦, Afonino, Nizhny Novgorod oblast, 603087; Nizhny Novgorod, 603950
V. Danil’tsev
Institute for Physics of Microstructures
Email: drozdyu@ipmras.ru
俄罗斯联邦, Afonino, Nizhny Novgorod oblast, 603087
M. Drozdov
Institute for Physics of Microstructures
Email: drozdyu@ipmras.ru
俄罗斯联邦, Afonino, Nizhny Novgorod oblast, 603087
P. Yunin
Institute for Physics of Microstructures; Lobachevsky State University of Nizhny Novgorod
Email: drozdyu@ipmras.ru
俄罗斯联邦, Afonino, Nizhny Novgorod oblast, 603087; Nizhny Novgorod, 603950
E. Demidov
Institute for Physics of Microstructures
Email: drozdyu@ipmras.ru
俄罗斯联邦, Afonino, Nizhny Novgorod oblast, 603087
P. Folomin
National University of Science and Technology MISiS
Email: drozdyu@ipmras.ru
俄罗斯联邦, Moscow, 119991
A. Gritsenko
National University of Science and Technology MISiS
Email: drozdyu@ipmras.ru
俄罗斯联邦, Moscow, 119991
S. Korolev
Institute for Physics of Microstructures
Email: drozdyu@ipmras.ru
俄罗斯联邦, Afonino, Nizhny Novgorod oblast, 603087
E. Surovegina
Institute for Physics of Microstructures
Email: drozdyu@ipmras.ru
俄罗斯联邦, Afonino, Nizhny Novgorod oblast, 603087
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