Polarization sensitive photodetector based on quasi-1D ZrSe_(3)

The in-plane anisotropy of transition metal trichalcogenides(MX_(3))has a significant impact on the molding of materi-als and MX_(3) is a perfect choice for polarized photodetectors.In this study,the crystal structure,optical and optoelectronic aniso-tropy of one kind of quasi-one-dimensional(1D)semiconductors,ZrSe_(3),are systematically investigated through experiments and theoretical studies.The ZrSe_(3)-based photodetector shows impressive wide spectral response from ultraviolet(UV)to near in-frared(NIR)and exhibits great optoelectrical properties with photoresponsivity of 11.9 mA·W^(-1) and detectivity of~106 at 532 nm.Moreover,the dichroic ratio of ZrSe_(3)-based polarized photodetector is around 1.1 at 808 nm.This study suggests that ZrSe_(3) has potential in optoelectronic applications and polarization detectors.

对称热流载荷下一维六方准晶体币状裂纹的热-弹性解析解

针对一维六方准晶无限体中币状裂纹问题,给出了裂纹面作用对称热流载荷时的解析解.在准晶热-弹性通解的基础上,采用广义势理论方法,得到了准晶体中稳态的三维精确热-弹性场.同时,给出了裂纹所在平面上多个重要物理量的封闭解,其中包括裂纹面位移、法向应力、应力强度因子等.通过数值算例,验证了当前解析解的正确性,并分析了三维热-弹性场的分布情况.通过对声子场和相位子场耦合与解耦前后的对比,可知相位子场对结果的影响非常显著.所得解析解可作为针对准晶体断裂问题数值方法(如扩展有限元法)和实验方法(红外热成像无损检测方法)的校核基准.

Quench dynamics of ultracold atoms in one-dimensional optical lattices with artificial gauge fields

We study the quench dynamics of noninteracting ultracold atoms loaded in one-dimensional （1D） optical lattices with artificial gauge fields, which are modeled by lattices with complex hopping coefficients. After suddenly changing the hopping coefficient, time evolutions of the density distribution, momentum distribution, and mass current at the center are studied for both finite uniform systems and trapped systems. Effects of filling factor, system size, statistics, harmonic trap, and phase difference in hopping are identified, and some interesting phenomena show up. For example, for a finite uniform fermionic system shock and rarefaction wave plateaus are formed at two ends, whose wave fronts move linearly with speed equaling to the maximal absolute group velocity. While for a finite uniform bosonic system the whole density distribution moves linearly at the group velocity. Only in a finite uniform fermionic system there can be a constant quasi- steady-state current, whose amplitude is decided by the phase difference and filling factor. The quench dynamics can be tested in ultracold atoms with minimal modifications of available experimental techniques, and it is a very interesting and fundamental example of the transport phenomena and the nonequilibrium dynamics.

用准经典轨线方法研究O（~1D）＋DBr→OD＋Br反应的极化分布

运用准经典轨线法结合Peterson从头计算势能面,在碰撞能为0.22eV时对O(1D)+DBr(v=0,j=0)→OD+Br反应进行了细致的立体动力学性质研究.极化微分反应截面(PDDCSs)给出了反应产物的散射方向.反映k与j′两矢量相关的函数P(θr)的分布表明产物分子的转动角动量j′在垂直于反应物相对速度矢量k的方向上有强烈的取向分布;反映k,k′与j′三矢量相关的函数P(θr)的分布表明产物转动角动量j′不仅有沿着y轴的取向效应,还有沿着y轴负方向的定向效应;描述产物转动角动量j′的空间分布函数P(θr,φr)说明反应垂直于散射平面极化.质量因子的不同,使得O(1D)+DBr反应的极化与O(1D)+HBr反应的极化有明显的差异,说明同位素效应比较明显.

碰撞能对O（~1D）＋HBr→OH＋Br反应的极化分布的影响

运用准经典轨线法结合Peterson从头计算势能面,在碰撞能分别为20.9,41.80和66.88 kJ/mol时,对放热反应O(1D)+HBr(v=0,j=0)→OH+Br(·H=-252.89 kJ/mol)进行了细致的立体动力学性质研究.反映k与j'两矢量相关的函数P(θr)的分布表明产物分子的转动角动量j'在垂直于反应物相对速度矢量k的方向上有强烈的取向分布,且随碰撞能的变化比较明显;反映k,k'与j'三矢量相关的函数P(φr)的分布表明产物转动角动量j'不仅有沿着y轴的取向效应,还有沿着y轴正向的弱定向效应,且这种弱定向效应随碰撞能的增加有所减弱;描述产物转动角动量j'的空间分布函数P(θr,φr)在(90°,90°)和(90°,270°)两处有两个明显的分布,随着碰撞能的增加,这两个集中分布越来越密集,碰撞能对该分布有一定的影响.产物分子的极化主要集中在垂直于散射面的平面内.除此之外,极化微分反应截面(PDDCSs)给出了反应产物的散射方向.

范德华材料Ta_(2)Ni_(3)Te_(5)中巨大的面内振动和输运各向异性

目前,Ta_(2)M3Te_(5)(M=Ni,Pd)层状范德华化合物可承载各种奇异电子态,且具有表现出非平凡输运现象的诱人潜力,因而重新引起人们的兴趣.其特征有Luttinger液体、量子自旋霍尔效应、高阶拓扑结构和超导电性.本文中,我们报道了单晶Ta_(2)Ni_(3)Te_(5)的合成,并揭示了其在每个具有准一维键合特征的层内的多重平面内各向异性.我们的技术结合了偏振拉曼光谱、角度分辨光电发射光谱、第一性原理计算和电/磁输运测量的能力.链状低对称层状结构的声子振动产生了高度各向异性的拉曼响应,不同的链内和链间键合特性导致电子带和声学声子的各向异性色散,这共同导致[100]和[001]方向之间的巨大平面内迁移率各向异性(2000%).这一结果与我们的电输运和霍尔效应测量结果相符.因此,沿不同平面内方向的输运行为也表现出不同的温度和磁场依赖性.本工作揭示的丰富的面内各向异性表明,Ta_(2)Ni_(3)Te_(5)是探索新型二维各向异性电子动力学的一个很有前途的平台,在下一代纳米电子器件中具有潜在的应用前景.

基于数字化反应堆物理计算程序SHARK的一步法输运计算方法研究

为建立基于数字化反应堆技术的新一代反应堆物理计算方法,实现数字化反应堆高保真建模、高分辨率高精度计算,基于数字化反应堆物理计算程序SHARK,开展了一步法输运计算方法研究,建立并比较了二维/一维方法及准三维特征线输运方法;基于空间区域分解及粗网有限差分(CMFD)的大规模并行加速技术,实现了棒状堆芯及板状堆芯的全堆规模一步法输运计算。数值结果与蒙特卡罗程序基准解相比,特征值偏差小于100pcm(1pcm=10^(-5)),最大棒功率、板功率偏差小于3%,验证了SHARK程序一步法输运计算方法具有良好计算精度,能够适用于棒状、板状堆芯等多应用场景。