利用形变势理论 (DPT) 将机械电子特征与散射率联系起来

IF 2.4 3区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

Communications in Theoretical Physics Pub Date : 2023-11-23 DOI:10.1088/1572-9494/ad0f14

Meryem Ziati, sanaa lahlali, H. Ez‐zahraouy

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引用次数: 0

摘要

这篇研究论文对 Sr2RuO2F2 化合物的电子、机械和传输特性提供了宝贵的见解。研究表明，Sr2RuO4 化合物呈现金属基态，能隙随着氧被氟取代而扩大。文章利用形变势理论 (DPT) 解释了绝对形变势 (ADP) 的概念及其与能带能量和应变的相关性。文章还使用 Voigt - Reuss - Hill 近似方法研究了 Sr2RuO2F2 的力学特征，并分析了其弹性常数、体积模量和剪切模量，表明其灵活性和适合光电应用。研究还探讨了声子在 Sr2RuO2F2 的散射率和载流子迁移率中的作用，以及声子介导的超导潜力。此外，还讨论了电子和空穴在应变下的固有电阻率及其对超导性和电阻率的潜在影响。本研究提供的见解有助于当前对 Sr2RuO2F2 及其潜在应用的理解。

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Correlation between mechano – electronic features and scattering rates using deformation potential theory (DPT)

This research paper has provided valuable insights into the electronic, mechanical, and transport properties of the Sr2RuO2F2 compound. The study shows that the Sr2RuO4 compound exhibits a metallic ground state and that the energy gap widens with oxygen substitution with fluorine. The concept of absolute deformation potential (ADP) and its correlation with band energies and strains is explained using deformation potential theory (DPT). The article also examines the mechanical features of Sr2RuO2F2 using the Voigt – Reuss – Hill approximation method and analyzes its elastic constants, bulk modulus, and shear modulus, indicating flexibility and suitability for optoelectronic applications. The role of acoustic phonons in scattering rates and carrier mobility in Sr2RuO2F2 and its potential for phonon – mediated superconductivity is explored. The intrinsic resistivity of electrons and holes under strain and its potential impact on superconductivity and electrical resistivity are also discussed. The insights provided by this study contribute to the current understanding of Sr2RuO2F2, and its potential applications.

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来源期刊

Communications in Theoretical Physics 物理-物理：综合

CiteScore

5.20

自引率

3.20%

发文量

6110

审稿时长

4.2 months

期刊介绍： Communications in Theoretical Physics is devoted to reporting important new developments in the area of theoretical physics. Papers cover the fields of: mathematical physics quantum physics and quantum information particle physics and quantum field theory nuclear physics gravitation theory, astrophysics and cosmology atomic, molecular, optics (AMO) and plasma physics, chemical physics statistical physics, soft matter and biophysics condensed matter theory others Certain new interdisciplinary subjects are also incorporated.