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TRANSMISSION COEFFICIENTS FOR TUNNELING OF ELECTRONS AND HOLES IN BIASED Ga{sub}(1-x)Al{sub}xAs-GaAs-Ga{sub}(1-x)Al{sub}xAs TRIPLE BARRIERS SEMICONDUCTOR HETEROSTRUCTURES

机译：偏置Ga {sub}（1-x）xAs-gaas-ga {sub}（1-x）xAs}（1-x）xAs}（1-x）xAs}（1-x）xAs三屏幕半导体异质结构的电子和孔的隧道隧穿的透射系数

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In this work we calculate the transmission coefficients for tunneling of electrons and holes through biased triple barriers (double-wells) semiconductor heterostructures (TBSH's), composed of Ga{sub}(1-x)Al{sub}xAs-GaAs-Ga{sub}(1-x)Al{sub}xAs with x = 0.45. The calculations are based on the effective mass theory that employs the spatial effective masses and the temperature dependent of the material parameters that constitute the heterostructure. The transverse motions of carriers are also considered. In the analysis the Airy's function formalism is taken into account. It is found that, the resonant transmission energies for both electrons and holes are decreased by enhancing the applied voltage. Also, the total resonant transmission energies for the tunneling carriers are deviated toward higher energies, as the temperature is increased. Therefore, these devices should be operated at low temperatures. Furthermore, the present work shows a discrepancy in resonant transmission energies with those reported ones, due to ignoring the effect of temperature.

机译：在这项工作中，我们通过偏置三屏障（双井）半导体异质结构（TBSH）来计算电子和孔的隧道隧穿的传输系数，由Ga {sub}（1-x）}×xas-gaas-ga {子}（1-x）α{sub} xas，x = 0.45。计算基于采用空间有效质量的有效质量理论和构成异质结构的材料参数的温度。还考虑了载体的横向运动。在分析中，考虑到通风的功能形式主义。结果发现，通过增强施加的电压来降低电子和孔的谐振传输能量。而且，随着温度的增加，隧道载波的总谐振传输能量偏离较高的能量。因此，这些装置应在低温下操作。此外，由于忽略了温度的效果，本作品显示出谐振传输能量的谐振传输能量。

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《Multifunctional Nanocomposites Nanomaterials Conference》|2008年||共10页
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A. M. Elabsy; H. G. Abdelwahed;
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TRANSMISSION COEFFICIENTS FOR TUNNELING OF ELECTRONS AND HOLES IN BIASED Ga{sub}(1-x)Al{sub}xAs-GaAs-Ga{sub}(1-x)Al{sub}xAs TRIPLE BARRIERS SEMICONDUCTOR HETEROSTRUCTURES

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