自发参量下转换光场的实验研究进展综述

自发参量下转换(spontaneous parametric down-conversion,SPDC)光场是基于单色泵浦光子流和量子真空噪声对非线性晶体的综合作用而产生的,它固有的量子起源决定了在非经典光场研究中的重要地位和作用.对SPDC光场的相干特性和它在绝对测量光电探测器量子效率中的应用进行了深入而细致的研究和探讨.     

补偿法在物理解题中的应用

补偿法就是设法使一些不对称分布问题变为对称分布,以便直接应用一些定理或公式方便地求出问题的答案.1 补偿法在力学中的应用 计算刚体的转动惯量. 例1:如图1所示,从一个半径为R的均匀薄板上挖去一个半径为r的     

自发参量下转换光场的产生机理及其态函数研究

分析了泵浦光与非线性晶体的相互作用过程，解释自发参量下转换光场的产生根源；推导自发参量下转换双光子态的数学表达式，并给出其几率解释。     

Anisotropic photoresponse of layered rhenium disulfide synaptic transistors

Layered ReS₂ with direct bandgap and strong in-plane anisotropy shows great potential to develop high-performance angle-resolved photodetectors and optoelectronic devices. However, systematic characterizations of the angle-dependent photoresponse of ReS₂ are still very limited. Here, we studied the anisotropic photoresponse of layered ReS₂ phototransistors in depth. Angel-resolved Raman spectrum and field-effect mobility are tested to confirm the inconsistency between its electrical and optical anisotropies, which are along 120° and 90°, respectively. We further measured the angle-resolved photoresponse of a ReS₂ transistor with 6 diagonally paired electrodes. The maximum photoresponsivity exceeds 0.515 A·W^-1 along b-axis, which is around 3.8 times larger than that along the direction perpendicular to b axis, which is consistent with the optical anisotropic directions. The incident wavelength- and power-dependent photoresponse measurement along two anisotropic axes further demonstrates that b axis has stronger light-ReS₂ interaction, which explains the anisotropic photoresponse. We also observed angle-dependent photoresistive switching behavior of the ReS₂ transistor, which leads to the formation of angle-resolved phototransistor memory. It has simplified structure to create dynamic optoelectronic resistive random access memory controlled spatially through polarized light. This capability has great potential for real-time pattern recognition and photoconfiguration of artificial neural networks (ANN) in a wide spectral range of sensitivity provided by polarized light.