Peculiarities of Current Flow in Strongly Compensated Low-Resistance CdTe:Cl Crystals under Ultrasonic Loading

Ya. M. Olikh; M. D. Tymochko

doi:10.15407/ujpe61.05.0381

Peculiarities of Current Flow in Strongly Compensated Low-Resistance CdTe:Cl Crystals under Ultrasonic Loading

Authors

Ya. M. Olikh V.E. Lashkaryov Institute of Semiconductor Physics, Nat. Acad. of Sci. of Ukraine
M. D. Tymochko V.E. Lashkaryov Institute of Semiconductor Physics, Nat. Acad. of Sci. of Ukraine

DOI:

https://doi.org/10.15407/ujpe61.05.0381

Keywords:

ultrasound, dislocations, CdTe single crystals, Hall effect, conductivity relaxation

Abstract

To elucidate the mechanism of influence of ultrasound on the temperature, T, dependence of conductivity (q(T)) in low-resistance CdTe:Cl (NCl ≈ 1024 m−3) single crystals of the n-type, the Hall effect and the relaxation kinetics of q(t) at the ultrasound (fUS ∼ 10 MHz, WUS ∼ 104 W/m2) switching-on and -off have been studied in a temperature interval from 77 to 300 K. A completely reversible dynamical influence of ultrasound is revealed for the first time. It has different characters for the low (LT, T < 180 K) and high (HT, T > 200 K) temperature intervals. Acoustically stimulated changes in the HT region are found to be in-significant: the mobility of charge carriers decreases a little, and long-term processes of q(t) relaxation are not observed. In the LT region, the relative acoustically stimulated changes grow; in particular, the duration of q(t) relaxation processes increases, and they reveal a two-stage character. To explain this phenomenon, the model of a heterogeneous semiconductor containing clusters of impurity defects in vicinities of dislocations is applied. A mechanism is proposed that relates the “instant” increase of q(t) with the acoustically stimulated reduction of the amplitude of fluctuations of the large-scale potential owing to the enlargement of the effective electronic radius of dislocation impurity clusters. Long-term (50–500 s) temperature-dependent relaxation processes are governed by the diffusive reconstruction of the point-defect structure in the cluster bulk, including the transformation of acceptor (V2−CdCl+Te)− complexes into neutral (V2−Cd2Cl+Te)0 ones.

Downloads

Published

2019-01-06

How to Cite

Olikh, Y. M., & Tymochko, M. D. (2019). Peculiarities of Current Flow in Strongly Compensated Low-Resistance CdTe:Cl Crystals under Ultrasonic Loading. Ukrainian Journal of Physics, 61(5), 381. https://doi.org/10.15407/ujpe61.05.0381

Download Citation

Issue

Vol. 61 No. 5 (2016)

Section

Solid matter

License

Copyright Agreement
License to Publish the Paper
Kyiv, Ukraine

The corresponding author and the co-authors (hereon referred to as the Author(s)) of the paper being submitted to the Ukrainian Journal of Physics (hereon referred to as the Paper) from one side and the Bogolyubov Institute for Theoretical Physics, National Academy of Sciences of Ukraine, represented by its Director (hereon referred to as the Publisher) from the other side have come to the following Agreement:

1. Subject of the Agreement.
The Author(s) grant(s) the Publisher the free non-exclusive right to use the Paper (of scientific, technical, or any other content) according to the terms and conditions defined by this Agreement.

2. The ways of using the Paper.
2.1. The Author(s) grant(s) the Publisher the right to use the Paper as follows.
2.1.1. To publish the Paper in the Ukrainian Journal of Physics (hereon referred to as the Journal) in original language and translated into English (the copy of the Paper approved by the Author(s) and the Publisher and accepted for publication is a constitutive part of this License Agreement).
2.1.2. To edit, adapt, and correct the Paper by approval of the Author(s).
2.1.3. To translate the Paper in the case when the Paper is written in a language different from that adopted in the Journal.
2.2. If the Author(s) has(ve) an intent to use the Paper in any other way, e.g., to publish the translated version of the Paper (except for the case defined by Section 2.1.3 of this Agreement), to post the full Paper or any its part on the web, to publish the Paper in any other editions, to include the Paper or any its part in other collections, anthologies, encyclopaedias, etc., the Author(s) should get a written permission from the Publisher.

3. License territory.
The Author(s) grant(s) the Publisher the right to use the Paper as regulated by sections 2.1.1–2.1.3 of this Agreement on the territory of Ukraine and to distribute the Paper as indispensable part of the Journal on the territory of Ukraine and other countries by means of subscription, sales, and free transfer to a third party.

4. Duration.
4.1. This Agreement is valid starting from the date of signature and acts for the entire period of the existence of the Journal.

5. Loyalty.
5.1. The Author(s) warrant(s) the Publisher that:
– he/she is the true author (co-author) of the Paper;
– copyright on the Paper was not transferred to any other party;
– the Paper has never been published before and will not be published in any other media before it is published by the Publisher (see also section 2.2);
– the Author(s) do(es) not violate any intellectual property right of other parties. If the Paper includes some materials of other parties, except for citations whose length is regulated by the scientific, informational, or critical character of the Paper, the use of such materials is in compliance with the regulations of the international law and the law of Ukraine.

6. Requisites and signatures of the Parties.
Publisher: Bogolyubov Institute for Theoretical Physics, National Academy of Sciences of Ukraine.
Address: Ukraine, Kyiv, Metrolohichna Str. 14-b.
Author: Electronic signature on behalf and with endorsement of all co-authors.