A new (MOM) approach of the (OLPT) model application to the (AC) conductivity in ZnS chalcogenide material

Abassi H.; Bouguila N.; Koaib J.; Amdouni N.; Bouchriha H.

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A new (MOM) approach of the (OLPT) model application to the (AC) conductivity in ZnS chalcogenide material

机译：（OLPT）模型应用于（AC）电导率在ZNS硫属化物材料中的一种新（MOM）方法

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摘要

In this work, we have proposed a theoretical investigation of the complicated Overlapping Large Polaron Tunneling (OLPT) conduction mechanism. In fact, in previous works, some approximations have been made in the aim of adopting the (OLPT) model to the experimental data. These approximations are not convincing and lead to reviewing the (OLPT) model.

机译：在这项工作中，我们提出了对复杂的重叠大型偏振子隧道（OLPT）传导机制的理论研究。事实上，在以前的作品中，已经提出了一些近似的近似值，以便将（OLPT）模型用于实验数据。这些近似并不令人信服并导致审查（OLPT）模型。

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来源
《Physica, B. Condensed Matter 》 |2020年第1期| 共8页
作者
Abassi H.; Bouguila N.; Koaib J.; Amdouni N.; Bouchriha H.;
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作者单位

Univ Tunis El Manar Lab Caracterisat Applicat &

Modelisat Mat Fac Sci Tunis Campus Univ Tunis 1060 Tunisia;

Univ Gabes Fac Sci Lab Phys Mat &

Nanomat Appl Environm Cite Erriadh Zrig 6072 Gabes Tunisia;

Univ Gabes Fac Sci Lab Phys Mat &

Nanomat Appl Environm Cite Erriadh Zrig 6072 Gabes Tunisia;

Univ Tunis El Manar Lab Caracterisat Applicat &

Modelisat Mat Fac Sci Tunis Campus Univ Tunis 1060 Tunisia;

Univ Tunis El Manar Lab Mat Avances &

Phenomenes Quant Fac Sci Tunis Campus Univ El Manar Tunis 2092 Tunisia;

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原文格式 PDF
正文语种 eng
中图分类物理学 ;
关键词
Chalcogenides; (AC) conduction; (OLPT) mechanism; Resonance phenomena; Thermal effect; Lattice vibrations;

机译：硫属化物;（AC）传导;（OLPT）机制;共振现象;热效应;格子振动;

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1. A new (MOM) approach of the (OLPT) model application to the (AC) conductivity in ZnS chalcogenide material [J] . Abassi H., Bouguila N., Koaib J., Physica, B. Condensed Matter . 2020 ,第1期

机译：（OLPT）模型应用于（AC）电导率在ZNS硫属化物材料中的一种新（MOM）方法
2. Dielectric and electrical properties of annealed ZnS thin films. The appearance of the OLPT conduction mechanism in chalcogenides [J] . J. Koaib, N. Bouguila, H. Abassi, RSC Advances . 2020 ,第16期

机译：退火ZnS薄膜的介电和电性能。硫属元素化物中OLPT传导机制的外观
3. DIELECTRIC BEHAVIOR AND AC ELECTRICAL CONDUCTIVITY ANALYSIS OF ZnSe CHALCOGENIDE NANOPARTICLES [J] . Mohd. Shakir, B. K. Singh, R. K. Gaur, Chalcogenide Letters . 2009 ,第12期

机译：ZnSe硫族化物纳米粒子的介电行为和交流电导率分析
4. Crystallization Study of the Cu_2ZnSnS_4 Chalcogenide Material for Solar Applications [C] . F.AI-Saab, B. Gholipour, C.C. Huang, 8th photovoltaic science applications and technology conference. . 2012

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5. Integrated Computational Materials Engineering (ICME) Investigation of Electrical Conductivity and Thermodynamic Stability for Precipitation Strengthened Al-Zn-Zr and Al-Zn-Ni Ternary Alloys [D] . Fadayomi, Oladeji 2019

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6. Te-based chalcogenide materials for selector applications [O] . A. Velea, K. Opsomer, W. Devulder, -1

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7. Dielectric and electrical properties of annealed ZnS thin films. The appearance of the OLPT conduction mechanism in chalcogenides [O] . J. Koaib, N. Bouguila, H. Abassi, 2020

机译：退火ZnS薄膜的介电和电性能。硫属元素化物中OLPT传导机制的外观

A new (MOM) approach of the (OLPT) model application to the (AC) conductivity in ZnS chalcogenide material

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