半导体光电, 2015, 36 (4): 533, 网络出版: 2015-09-08
纳米级自开关二极管的电学特性研究
Simulation of Electrical Characteristics of Nano-scale Self-switching Diodes
纳米级自开关器件 蒙特卡罗 结构参数 整流特性 nanoscale self-switching diode (NSSD) Monte Carlo geometry parameter I-V characteristic
摘要
纳米级自开关二极管是一种通过破坏器件表面对称性来实现整流特性的纳米级新型晶体管。首先通过建立In0.53Ga0.47As/In0.52Al0.48As纳米级自开关二极管的二维器件模型, 采用蒙特卡罗方法, 模拟了自开关器件的电子输运特性, 根据该器件模型研究了在不同几何结构参数条件下的自开关器件的电学特性, 并对影响器件电学特性的结构参数进行了仿真分析。结果表明, 器件的I-V特性强烈地受到导电沟道宽度、沟槽宽度、沟道长度和表面态密度的影响, 通过优化器件的结构参数可使器件获得更优越的整流特性。
Abstract
The nanoscale self-switching diode (NSSD) presents a diode-like current-voltage (I-V) characteristic by simply tailoring the boundary of a narrow semiconductor channel to break its symmetry. By means of a semiclassical two-dimensional Monte Carlo technique to sdudy the electron transport properties of the device, a model of nanoscale self-switching diode based on In0.53Ga0.47As/In0.52Al0.48As has been established. Effects of the channel width, the horizontal width, the channel length and the surface charge density on electrical characteristics of nanoscale self-switching diode are analyzed. Simulation results show that the NSSD’s electrical characteristic is strongly influenced by the geometry parameters. The NSSD will exhibit more effective rectification characteristic by adjusting the geometry parameters.
史章淳, 杨晓红, 韩勤. 纳米级自开关二极管的电学特性研究[J]. 半导体光电, 2015, 36(4): 533. SHI Zhangchun, YANG Xiaohong, HAN Qin. Simulation of Electrical Characteristics of Nano-scale Self-switching Diodes[J]. Semiconductor Optoelectronics, 2015, 36(4): 533.