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Electronic Structure computation and Differential Capacitance profile in δ-doped FET as a function of Hydrostatic Pressure

机译：作为静压压力函数的δ掺杂FET中的电子结构计算和差动电容曲线

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In this work we present the results obtained from the calculation of the level structure of a n-type delta-doped well Field Effect Transistor when is subjected to hydrostatic pressure. We study the energy level structure as a function of hydrostatic pressure within the range of 0 to 6 kbar for different Schottky barrier height (SBH).We use an analytical expression for the effect of hydrostatic pressure on the SBH and the pressure dependence of the basic parameters of the system as the effective mass m(P) and the dielectric constant ε(P) of GaAs. We found that due to the effects of hydrostatic pressure, in addition to electronic level structure alteration, the profile of the differential capacitance per unit area C~(-2) is affected.

机译：在这项工作中，我们介绍了在经受静压压力时计算N型δ掺杂阱场效应晶体管的水平结构的结果。我们将能量水平结构作为静水压力范围内的函数，用于不同的肖特基势垒高度（SBH）。我们使用分析表达对SBH的静压压力和基本压力依赖性的影响系统的参数作为GaAs的有效质量m（p）和介电常数ε（p）。我们发现，由于静压压力的影响，除了电子水平结构改变之外，每单位面积C〜（-2）的差分电容的轮廓受到影响。

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《LDSD 2011》|2014年||共3页
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作者
C. Carlos-Pinedo; I. Rodríguez-Vargas; J.C. Martínez-Orozco;
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中图分类 TN3-532;
关键词
FET; Electronic Structure Calculations; Hydrostatic Pressure.;

机译：FET;电子结构计算;静压压力。;

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专利

1. Study of the electronic properties of GaAs-based atomic layer doped field effect transistor(ALD-FET) under the influence of hydrostatic pressure [J] . J. C. Martinez-Orozco, I. Rodriguez-Vargas, C. A. Duque, Physica status solidi, B. Basic research . 2009,第3期

机译：静水压力作用下GaAs基原子层掺杂场效应晶体管（ALD-FET）的电子性能研究
2. A systematic computational study to understand the effect of metals (Mg,Ca, Sr) doping and external isotropic static pressure on phase stability,electronic band structure and optical properties of KNbO_3 [J] . S.S.A. Gillani, Talat Zeeshan, Asma Maqsood, Materials Science and Engineering . 2021,第Sepa期

机译：系统的计算研究，了解金属（Mg，CA，SR）掺杂和外部各向同性静压对KNBO_3的电子频带结构和光学性质的影响
3. Computational comparison of the application of doping, functionalization and ion exchanged of adsorbent structures on the pressure swing adsorption [J] . Fluid Phase Equilibria . 2020,第期

机译：掺杂，官能化和离子施加吸附结构对压力摆吸附的计算比较
4. Electronic Structure computation and Differential Capacitance profile in δ-doped FET as a function of Hydrostatic Pressure [C] . C. Carlos-Pinedo, I. Rodríguez-Vargas, J.C. Martínez-Orozco LDSD 2011 . 2014

机译：作为静压压力函数的δ掺杂FET中的电子结构计算和差动电容曲线
5. Numerical extraction of metal-oxide-semiconductor doping profiles from capacitance-voltage measurements [D] . Osse, Antonio Luiz de Menezes 1993

机译：从电容电压测量中数值提取金属氧化物半导体掺杂分布
6. The Electronic Structures and Optical Properties of Alkaline-Earth Metals Doped Anatase TiO2: A Comparative Study of Screened Hybrid Functional and Generalized Gradient Approximation [O] . Jin-Gang Ma, Cai-Rong Zhang, Ji-Jun Gong, 2015

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7. Electronic states in n-type GaAs delta-doped quantum wells under hydrostatic pressure [O] . M. E. Mora-Ramos, C. A. Duque 2006

机译：在静水压力下N型GaAsδ掺杂量子孔的电子状态
8. Restricted Primitive Model for Electrical Double Layers: Modified HNC Theory of Density Profiles and Monte Carlo Study of Differential Capacitance [R] . Ballone, P., Pastore, G., Tosi, M. P. 1986

机译：电双层限制原始模型：密度剖面的改进HNC理论和差分电容的蒙特卡罗研究

Electronic Structure computation and Differential Capacitance profile in δ-doped FET as a function of Hydrostatic Pressure

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