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Resonant tunneling transport in Zn_xBe_(1-x)Se/ZnSe/Zn_yBe_(1-y)Se asymmetric quantum structures

机译：Zn_xBe_（1-x）Se / ZnSe / Zn_yBe_（1-y）Se不对称量子结构中的共振隧穿传输

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II-VI compounds are promising materials for the fabrication of room-temperature terahertz devices due to their beneficial properties like as type-I conduction band alignment, high breakdown field strength (~331 kVVcrn for ZnSe vs. ~80 kV/cm for GaAs), and higher values of the conduction band offset (1.5 eV for BeSe/ZnSe vs. 0.7 eV for AlAs/GaAs). In this paper we report on numerical study of the resonant tunneling transport in ZnBeSe/ZnSe/ZnBeSe symmetric and asymmetric resonant tunneling diodes (RTDs). The negative differential resistance feature is observed in the current-voltage characteristics of the ZnSe-based RTDs. It is found that the maximum of peak-to-valley ratio (PVR) of the current density is equal to 6.025 and 7.144 at 150 K, and to 1.120 and 1.105 at 300 K for the symmetric and asymmetric RTDs, respectively. The effect of barrier heights on the frequency and output power performance of RTD devices are studied and discussed.

机译：II-VI化合物具有良好的特性，例如I型导带对准，高击穿场强（ZnSe约为331 kVVcrn，GaAs约为80 kV / cm），是制造室温太赫兹器件的有前途的材料。，以及更高的导带偏移值（BeSe / ZnSe为1.5 eV，而AlAs / GaAs为0.7 eV）。在本文中，我们报告了ZnBeSe / ZnSe / ZnBeSe对称和不对称谐振隧穿二极管（RTDs）中的谐振隧穿传输的数值研究。在基于ZnSe的RTD的电流-电压特性中观察到负的差分电阻特性。已发现，对于对称和非对称RTD，电流密度的峰谷比（PVR）的最大值分别在150 K时等于6.025和7.144，在300 K时等于1.120和1.105。研究和讨论了势垒高度对RTD器件的频率和输出功率性能的影响。

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《Nanotechnology VIII 》|2017年|1024811.1-1024811.7|共7页
会议地点 Barcelona(ES)
作者
Vadim P. Sirkeli; Oktay Yilmazoglu; Shihab Al-Daffaie; Ion Oprea; Duu Sheng Ong; Franko Kueppers; Hans L. Hartnagel;
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Institut fuer Mikrowellentechnik und Photonik, Technische Universitaet Darmstadt, Merckstraße 25, Darmstadt, 64283 Germany ,Dept. of Information Technologies, Mathematics and Physics, Comrat State University, Galatsan street 17, Comrat, MD-3800 Moldova;

Dept. of High Frequency Electronics, Technische Universitat Darmstadt, MerckstraBe 25, Darmstadt, 64283 Germany;

Institut fuer Mikrowellentechnik und Photonik, Technische Universitaet Darmstadt, Merckstraße 25, Darmstadt, 64283 Germany;

Institut fuer Mikrowellentechnik und Photonik, Technische Universitaet Darmstadt, Merckstraße 25, Darmstadt, 64283 Germany;

Facuity of Engineering, Multimedia University, Persiaran Multimedia, Cyberjaya, Selangor, 63100 Malaysia;

Institut fuer Mikrowellentechnik und Photonik, Technische Universitaet Darmstadt, Merckstraße 25, Darmstadt, 64283 Germany;

Institut fuer Mikrowellentechnik und Photonik, Technische Universitaet Darmstadt, Merckstraße 25, Darmstadt, 64283 Germany;

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正文语种 eng
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关键词
resonant tunneling diodes; negative differential resistance; terahertz emission; ZnSe; BeSe; ZnBeSe; alloy;

机译：谐振隧道二极管；负差分电阻；太赫兹发射硒化锌; BeSe; ZnBeSe;合金;

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1. Quantum confinement of Te bound exciton in ZnSe/ZnSe_(1-x)Te_x and ZnSe/Zn_(1-y)Cd_ySe quantum wells [J] . Chu-shou Yang, Ming-chin Kuo, Yi-jen Lai, Materials Chemistry and Physics . 2003 ,第1期

机译：Te束缚激子在ZnSe / ZnSe_（1-x）Te_x和ZnSe / Zn_（1-y）Cd_ySe量子阱中的量子约束
2. Spin transport through a ZnSe-based diluted magnetic semiconductor resonant tunneling structure in the presence of electric and magnetic fields [J] . Papp G, Borza S, Peeters FM Physica status solidi, B. Basic research . 2006 ,第8期

机译：在电场和磁场的作用下通过ZnSe基稀磁半导体谐振隧道结构的自旋输运
3. Effect of Induced Strain Due to Lattice Mismatch between Mg_yZn_(1-y)S Cladding Layers and Cd_xZn_(1-x)S/ZnS Quantum Wells on Effective Band Gap Energy in Cd_xZn_(1-x)S/ZnS/Mg_yZn_(1-y)S Separate-Confinement Heterostructures [J] . Chikara ONODERA, Tadayoshi SHOJI, Yukio HIRATATE, Japanese Journal of Applied Physics. Part 1, Regular Papers, Brief Communications & Review Papers . 2005 ,第7A期

机译：Mg_yZn_（1-y）S熔覆层与Cd_xZn_（1-x）S / ZnS量子阱之间的晶格失配引起的应变对Cd_xZn_（1-x）S / ZnS / ZnS / Mg_yZn_（1-的有效带隙能的影响y）S分离约束异质结构
4. Resonant tunneling transport in Zn_xBe_(1-x)Se/ZnSe/Zn_yBe_(1-y)Se asymmetric quantum structures [C] . Vadim P. Sirkeli, Oktay Yilmazoglu, Shihab Al-Daffaie, Conference on nanotechnology VIII . 2017

机译：zn_xbe_（1-x）se / znse / znybe_（1-y）SE不对称量子结构中的谐振隧道传输
5. Magneto-optical investigations of II-VI DMS heterostructures: zinc(1-x-y) manganese(x) cadmium(y) selenium/zinc(1-x) manganese(x) selenium single quantum wells, zinc(1-x) cadmium(x) selenium/zinc(1-y) manganese(y) selenium type-I and cadmium selenide/zinc telluride based type-II superlattices. [D] . Zhang, Fu-Cai. 1994

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机译：np-（p（+） - n（+）） - n al（y）Ga（1-y）as-Gaas-In（x）Ga（1-x）as量子阱激光器，p（+） - n n + Gaas上的（+）Gaas-InGaas隧道接触

Resonant tunneling transport in Zn_xBe_(1-x)Se/ZnSe/Zn_yBe_(1-y)Se asymmetric quantum structures

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