Analysis of quantum capacitance and quantum hall effect of silicene for different fermi energy

机译：不同费米能量的量子电容与量子霍尔疗效分析

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Silicene is a monolayer of silicon which is again an isostructure to graphene. Due to zero bandgap of graphene, it is now subsided by silicene which opens new opportunities for electrically tunable electronic devices. But before using it as a material in a device, some electronic properties have to be investigated. In silicone, the charge carrier behaves like massless Dirac fermion. For this, quantum study is very necessary and mandatory. In this paper, we will observe the quantum capacitance and the quantum hall effect for corresponding Fermi energy level for different spin coupling strength and applied electric energy.

机译：硅片是硅的单层，其再次是石墨烯的肌醇。由于石墨烯的零点隙，现在硅晶沉积，这为电动可调谐电子设备开辟了新的机会。但在使用它作为设备中的材料之前，必须研究一些电子特性。在硅树脂中，电荷载体表现得像无抽质的Dirac Fermion。为此，量子研究是非常必要和强制性的。在本文中，我们将观察量子电容和量子霍尔效应，用于不同自旋耦合强度和应用电能的相应费米能级。

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《International Conference on Electrical, Computer and Communication Technologies》|2015年||共4页
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作者
Hasan Md Rifat; Hassan Asif; Abedin Minhaz Ibna; Mondol Raktim Kumar;
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中图分类计算技术、计算机技术;
关键词
Fermi energy; Silicene; energy; quantum capacitance; quantum hall effect;

机译：费米能量;硅;能量;量子电容;量子霍尔效应;

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专利

1. Spin valleytronics in silicene: Quantum spin Hall-quantum anomalous Hall insulators and single-valley semimetals [J] . Motohiko Ezawa Physical review . 2013,第15期

机译：硅中的自旋Valleytronics：量子自旋霍尔量子异常霍尔绝缘子和单谷半金属
2. Topological analysis of the quantum Hall effect in graphene: Dirac-Fermi transition across van Hove singularities and edge versus bulk quantum numbers [J] . Yasuhiro Hatsugai, Takahiro Fukui, Hideo Aoki Physical review. B, Condensed Matter And Materials Physics . 2006,第20期

机译：石墨烯中的量子霍尔效应的拓扑分析：范霍夫奇异点和边缘与体量子数之间的狄拉克-费米跃迁
3. Exploring the performance of pristine and defective silicene and silicene-like XSi3 (X= Al, B, C, N, P) sheets as supercapacitor electrodes: A density functional theory calculation of quantum capacitance [J] . Momeni Mohammad Jafar, Mousavi-Khoshdel Morteza, Leisegang Tilmann Physica, E. Low-dimensional systems & nanostructures . 2020,第1期

机译：探索原始和义丙烯和硅样XSI3（X = Al，B，C，N，P）作为超级电容器电极的性能：量子电容的密度泛函理论计算
4. Analysis of quantum capacitance and quantum hall effect of silicene for different fermi energy [C] . Hasan Md Rifat, Hassan Asif, Abedin Minhaz Ibna, International Conference on Electrical, Computer and Communication Technologies . 2015

机译：不同费米能的硅的量子电容和量子霍尔效应分析
5. CAPACITANCE MEASUREMENTS OF A QUANTIZED TWO-DIMENSIONAL ELECTRON GAS IN THE REGIME OF THE QUANTUM HALL EFFECT [D] . GOODALL, RANDAL KEITH 1984

机译：量子霍尔效应系统中二维电子气体的电容测量
6. Strain-Induced Quantum Spin Hall Effect in Two-Dimensional Methyl-Functionalized Silicene SiCH3 [O] . Ceng-Ceng Ren, Wei-Xiao Ji, Shu-Feng Zhang, 2018

机译：二维甲基官能化硅SiCH3中的应变诱导量子自旋霍尔效应
7. Topological analysis of the quantum Hall effect in graphene: Dirac-Fermi transition across van Hove singularities and edge versus bulk quantum numbers [O] . Hatsugai Yasuhiro, Fukui Takahiro, Aoki Hideo 2006

机译：石墨烯中的量子霍尔效应的拓扑分析：范霍夫奇异点和边缘与体量子数之间的狄拉克-费米跃迁
8. Intrinsic Capacitances and Inductances of Quantum Hall Effect Devices [R] . 1996

机译：量子霍尔效应器件的本征电容和电感

Analysis of quantum capacitance and quantum hall effect of silicene for different fermi energy

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