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Positive terahertz photoconductivity in CdHgTe under hydrostatic pressure

IF 3.7 2区 物理与天体物理 Q1 Physics and Astronomy
Physical Review B Pub Date : 2025-08-13 DOI:10.1103/hfn6-v2y6
I. Yahniuk, D. A. Kozlov, M. D. Moldavskaya, L. E. Golub, V. V. Bel'kov, I. A. Dmitriev, S. S. Krishtopenko, F. Teppe, Y. Ivonyak, A. Bercha, G. Cywiński, W. Knap, and S. D. Ganichev
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引用次数: 0

Abstract

Positive terahertz photoconductivity is observed at room temperature in CdHgTe thin films with different Cd contents. We show that electron gas heating caused by Drude-like absorption results in positive photoconductivity because of the interband activation mechanism specific for undoped narrow-gap semiconductors and semimetals. Applying intense terahertz radiation, we observed that the photoconductivity saturates at high intensities, which was found to be caused by absorption bleaching. Both the magnitude of the photoconductivity and the saturation intensity are shown to exhibit an exponential dependence on the hydrostatic pressure. We show that this is a consequence of the fact that both phenomena are controlled by the ratio of energy and momentum relaxation times.
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静水压力下CdHgTe的正太赫兹光电性
在室温下,不同Cd含量的CdHgTe薄膜观察到正太赫兹光导率。我们发现,由于未掺杂的窄间隙半导体和半金属特有的带间激活机制,德鲁德类吸收引起的电子气体加热导致正光电导率。应用强太赫兹辐射,我们观察到光电导率在高强度下饱和,发现这是由吸收漂白引起的。光电导率的大小和饱和强度都显示出与静水压力呈指数依赖关系。我们表明,这是由于这两种现象都是由能量和动量松弛时间的比值控制的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Physical Review B
Physical Review B 物理-物理:凝聚态物理
CiteScore
6.70
自引率
32.40%
发文量
0
审稿时长
3.0 months
期刊介绍: Physical Review B (PRB) is the world’s largest dedicated physics journal, publishing approximately 100 new, high-quality papers each week. The most highly cited journal in condensed matter physics, PRB provides outstanding depth and breadth of coverage, combined with unrivaled context and background for ongoing research by scientists worldwide. PRB covers the full range of condensed matter, materials physics, and related subfields, including: -Structure and phase transitions -Ferroelectrics and multiferroics -Disordered systems and alloys -Magnetism -Superconductivity -Electronic structure, photonics, and metamaterials -Semiconductors and mesoscopic systems -Surfaces, nanoscience, and two-dimensional materials -Topological states of matter
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