物理学报2017,Vol.66Issue(8):327-334,8.DOI:10.7498/aps.66.087801
低温生长砷化镓的超快光抽运-太赫兹探测光谱
Study on ultrafast dynamics of low-temp erature grown GaAs by optical pump and terahertz prob e sp ectroscopy
摘要
Abstract
Low-temperature-grown GaAs (LT-GaAs) possesses high carrier mobility, fast charge trapping, high dark resistance, and large threshold breakdown voltage, which make LT-GaAs a fundamental material for fabricating the ultrafast photoconductive switch, high efficient terahertz emitter, and high sensitive terahertz detector. Although lots of researches have been done on the optical and optoelectrical properties of LT-GaAs, the ultrafast dynamics of the photoexcitation and the relaxation mechanism are still unclear at present, especially when the photocarrier density is close to or higher than the defect density in the LT-GaAs, the dispersion of photocarriers shows a complicated pump fluence dependence. With the development of THz science and technology, the terahertz spectroscopy has become a powerful spectroscopic method, and the advantages of this method are contact-free, highly sensitive to free carriers, and sub-picosecond time resolved. In this article, by employing optical pump and terahertz probe spectroscopy, we investigate the ultrafast carrier dynamics of photogenerated carriers in LT-GaAs. The results reveal that the LT-GaAs has an ultrafast carrier capture process in contrast with that in GaAs wafer. The photoconductivity in LT-GaAs increases linearly with pump fluence at low power, and the saturation can be reached when the pump fluence is higher than 54 μJ/cm2. It is also found that the fast process shows a typical relaxation time of a few ps contributed by the capture of defects in the LT-GaAs, which is strongly dependent on pump fluence: higher pump fluence shows longer relaxation time and larger carrier mobility. By employing Cole-Cole Drude model, we can reproduce the photoconductivity well. Our results reveal that photocarrier relaxation time is dominated by the carrier-carrier Coulomb interaction: under low carrier density, the carrier-carrier Coulomb interaction is too small to screen the impurity-carrier scattering, and impurity-carrier scattering plays an important role in the photocarrier relaxation process. On the other hand, under high pump fluence excitation, the carrier-carrier Coulomb interaction screens partially the impurity-carrier scattering, which leads to the reduction of impurity-carrier scattering rate. As a result, the photocarrier lifetime and mobility increase with increasing pump fluence. The experimental findings provide fundamental information for developing and designing an efficient THz emitter and detector.关键词
低温生长砷化镓/超快太赫兹光谱/光电导Key words
low temperature GaAs/ultrafast THz spectroscopy/photoconductivity引用本文复制引用
樊正富,谭智勇,万文坚,邢晓,林贤,金钻明,曹俊诚,马国宏..低温生长砷化镓的超快光抽运-太赫兹探测光谱[J].物理学报,2017,66(8):327-334,8.基金项目
国家自然科学基金(批准号:11674213,11604202,61405233)、国家重大科学仪器设备开发专项(批准号:2011YQ150021)和上海市教委重点课题(批准号:14ZZ101)资助的课题. Project supported by the National Natural Science Foundation of China (Grant Nos.11674213,11604202,61405233),the National Key Scientific Instrument and Equipment Development Project of China (Grant No.2011YQ150021),and the Research Innovation Fund of the Shanghai Education Committee,China (Grant No.14ZZ101). (批准号:11674213,11604202,61405233)
