光子学报, 2020, 49 (8): 0823001, 网络出版: 2020-11-27
光窗口对SiGe/Si异质结光电晶体管光响应的影响 下载: 663次
Effect of Optical Window on Optical Response Characteristics of SiGe/Si Heterojunction Phototransistor
异质结光电晶体管 光窗口位置 光窗口面积 光增益 光特征频率 Heterojunction phototransistor Optical window position Optical window area Optical gain Optical characteristic frequency
摘要
分析了不同光窗口位置和不同光窗口面积对SiGe/Si异质结光电晶体管(HPT)光响应特性的影响.光窗口位于发射区时,HPTs吸收路径长,会产生较多的光生载流子,在发射结界面产生较大的发射结光生电压,有利于发射结的电子注入,因此获得较大的集电极输出电流和光增益.当入射光波长为650 nm,集电极电压为2.0 V,光窗口面积为10 μm×10 μm时,SiGe/Si HPT的光增益最大可以达到9.24.光窗口位于基区时,在较大的入射光功率下,HPTs吸收区的光生载流子密度大,光生空穴发生快速驰豫的可能性增加,一定程度上缓解了空穴迁移率低对器件工作速度的限制,提高了光特征频率.当入射光波长650 nm,集电极电压2.0 V,光窗口面积为10 μm×10 μm时,SiGe/Si HPT的光特征频率可达16.75 GHz.对于能够获得更高光增益光特征频率优值的发射区光窗口SiGe/Si HPTs,当光窗口面积从3 μm×10 μm到50 μm×10 μm逐渐增加时,电子在发射结界面的有效注入面积增加从而光增益逐渐增大;同时发射结和集电结的结电容也随之增大,RC延迟时间增长,光特征频率却逐渐减小.光增益·光特征频率优值随着光窗口面积的增加而逐渐提高,但随着面积的增加,光增益·光特征频率优值提高的速率变慢,并有逐渐趋于饱和的趋势.
Abstract
The effects of different optical window positions and different optical window areas on the optical response characteristics of SiGe/Si Heterojunction Phototransistor (HPT) are analyzed. HPTs with emitter optical window can generate more photo-generated carriers due to the longer absorption region, and then bring out a larger optical-generated voltage at emitter junction interface, which is beneficial for electronsto inject from the emitter into the base. Therefore, a larger collector current and optical gain are obtained. When the optical window area is 10 μm×10 μm, the maximum optical gain of SiGe/Si HPT can reach 9.24 with 650 nm incident light wavelength and 2.0 V collector voltage. HPTs with base optical window get larger photo-generated carrier density in the absorption region when incident power become larger, then the possibility of rapid relaxation for photo-generated holes increases, which relieves the limitation of the operating speed from hole's low mobility to some extent, so the optical characteristic frequency is increased. When the optical window area is 10 μm×10 μm, the optical characteristics frequency of SiGe/Si HPT can reach 16.75 GHz with 650 nm incident light wavelength and 2.0 V collector voltage. For the SiGe/Si HPTs with emitter optical window that can achieve higher optical gain and optical characteristic frequency merit, when the optical window area gradually increases from 3 μm×10 μm to 50 μm×10 μm, the effective injection area of electrons at emitter junction interface gradually increases. However, at the same time the emitter junction capacitance and collector junction capacitance increase and results the RC delay time increasing, so the optical characteristic frequency gradually decreases. The optical gain and optical characteristic frequency merit increase gradually with the increase of the optical window area, but the rate of increase slows down and the optical gain and optical characteristic frequency merit tends to become saturated.
马佩, 谢红云, 沙印, 向洋, 陈亮, 郭敏, 刘先程, 张万荣. 光窗口对SiGe/Si异质结光电晶体管光响应的影响[J]. 光子学报, 2020, 49(8): 0823001. Pei MA, Hong-yun XIE, Yin SHA, Yang XIANG, Liang CHEN, Min GUO, Xian-cheng LIU, Wan-rong ZHANG. Effect of Optical Window on Optical Response Characteristics of SiGe/Si Heterojunction Phototransistor[J]. ACTA PHOTONICA SINICA, 2020, 49(8): 0823001.