基于BiFeO_3/ITO复合膜表面钝化的黑硅太阳电池性能研究

采用金属银辅助化学刻蚀法在制绒的硅片表面刻蚀纳米孔形成微纳米双层结构,以期获得高吸收率的太阳能电池用黑硅材料.鉴于微纳米结构会在晶硅表面引入大量的载流子复合中心,利用磁控溅射技术在黑硅太阳电池表面制备了BiFeO_3/ITO复合膜,并对其表面性能和优化效果进行了探索.实验制备的具有微纳米双层结构的黑硅纳米线长约180—320 nm,在300—1000 nm波长范围内入射光反射率均在5%以下.沉积BiFeO_3/ITO复合薄膜后的黑硅太阳能电池反射率略有提高,但仍然具有较强的光吸收性能;采用BiFeO_3/ITO复合膜的黑硅太阳能电池开路电压和短路电流密度分别由最初的0.61 V和28.42 mA/cm~2提升至0.68 V和34.57 mA/cm~2,相应电池的光电转化效率由13.3%上升至16.8%.电池综合性能的改善主要是因为沉积BiFeO_3/ITO复合膜提高了电池光生载流子的有效分离,从而增强了黑硅太阳电池短波区域的光谱响应,表明具有自发极化性能的BiFeO_3薄膜对黑硅太阳能电池的表面性能可起到较好的优化作用.     

中心化开放式大学物理实验教学管理系统的设计

研究型大学建设背景下,农林院校大学物理实验实行中心化开放式教学,有效发挥公共基础课教学的基础性作用,具有十分重要的意义.根据高等农林院校中心化开放式教学的特点,采用B/S和C/S混合模式,设计了中心化开放式大学物理实验教学管理系统.该系统的使用保证了中心化开放式大学物理实验教学体系的运行,实现了多元化的考核方式,使物理实验教学中心资源发挥了最大效益,在提高学生的综合素质、培养学生的创新精神与实践能力方面发挥重要作用.     

计算机辅助物理实验教学的几点思考

探讨了物理实验教学引入智能化仪器的必要性和意义，指出引入计算机辅助教学必须对传统的实验教学内容和方法重新设计，同时软件的设计应给学生留有接口的余地。     

Temperature dependence of the P-hit single event transient pulse width in a three-transistor inverter chain

A comparison of the temperature dependence of the P-hit single event transient (SET) in a two-transistor (2T) inverter with that in a three-transistor (3T) inverter is carried out based on a three-dimensional numerical simulation.Due to the significantly distinct mechanisms of the single event change collection in the 2T and the 3T inverters,the temperature plays different roles in the SET production and propagation.The SET pulse will be significantly broadened in the 2T inverter chain while will be compressed in the 3T inverter chain as temperature increases.The investigation provides a new insight into the SET mitigation under the extreme environment,where both the high temperature and the single event effects should be considered.The 3T inverter layout structure (or similar layout structures) will be a better solution for spaceborne integrated circuit design for extreme environments.     

主副垂直腔面发射激光器动力学系统混沌输出的时延特征及带宽分析

基于垂直腔面发射激光器(VCSEL)的自旋反转模型, 数值研究了由一个光反馈VCSEL (定义为主VCSEL, M-VCSEL)输出的混沌光单向注入到另一个VCSEL (定义为副VCSLE, S-VCSEL)所构成的主副VCSELs系统的混沌动力学特性, 分析了注入强度、M-VCSEL与S-VCSEL之间的频率失谐以及M-VCSEL所受到的光反馈强度对系统混沌输出时延特征(包括强度时延特征(I-TDS) 和相位时延特征(P-TDS))以及输出带宽(BW)的影响. 结果显示: 通过调节注入强度和频率失谐, 该系统混沌输出的两个偏振分量(X-PC和Y-PC)的P-TDS和I-TDS可以同时得到抑制; 进一步分析注入强度和频率失谐对混沌BW的影响, 发现在较大负频率失谐区域, 系统可输出BW超过30 GHz 的X-PC和Y-PC混沌信号; 结合系统混沌输出信号的TDS与BW在注入强度和频率失谐参量空间下的演化特性, 可确定宽带宽、低时延特征混沌信号输出的参量空间区域. 此外, 通过合理调节M-VCSEL 所受到的光反馈强度, 可以显著优化系统的混沌输出信号质量.     

光纤转动引起光纤光谱效率变化与改正

光纤的焦比退化(focal ratio degradation)是光纤光谱效率损失的重要原因之一。光纤在安装和每次定位过程中,光纤的转动和扭曲会引起光纤焦比退化发生变化,从而改变光纤的传输效率,每根光纤由此造成的传输效率变化都会存在差异。而这样的效率差异无法用通常天文观测中使用的晨昏天光平场或者圆顶平场改正。减天光是光纤光谱数据处理中决定光谱质量的重要环节。减天光处理要求对不同光纤的传输效率进行归一化处理,以扣除不同光纤之间传输效率差异导致的天光背景测量的误差。对于与天光背景亮度接近乃至更暗的观测目标而言,光纤传输效率的改正精度决定了减天光的精度。测试了LAMOST望远镜光纤转动对光纤传输效率的影响情况。在检查了光谱中天光发射线强度与光纤传输效率的关系,和验证了光纤效率变化与波长变化相对独立的基础上,提出并且证实了通过测量各光纤中天光发射线强度作为光纤相对效率变化量来改正光纤效率差异的方法是可行的。这种方法已经被应用到LAMOST二维光谱处理当中。     

Brightening single-photon emitters by combining an ultrathin metallic antenna and a silicon quasi-BIC antenna

Bright single-photon emitters(SPEs)are fundamental components in many quantum applications.However,it is difficult to simultaneously get large Purcell enhancements and quantum yields in metallic nanostructures because of the huge losses in the metallic nanostructures.Herein,we propose to combine an ultrathin metallic bowtie antenna with a silicon antenna above a metallic substrate to simultaneously get large Purcell enhancements,quantum yields,and collection efficiencies.As a result,the brightness of SPEs in the hybrid nanostructure is greatly increased.Due to the deep subwavelength field confinement(mode size<10 nm)of surface plasmons in the ultrathin metallic film(thickness<4 nm),the Purcell enhancement of the metallic bowtie antenna improves by more than 25 times when the metal thickness decreases from 20 nm to 2 nm.In the hybrid nanostructures by combining an ultrathin metallic bowtie antenna with a silicon antenna,the Purcell enhancement(Fp≈2.6×10⁶)in the hybrid nanostructures is 63 times greater than those(≤4.1×10⁴)in the previous metallic and hybrid nanostructures.Because of the reduced ratio of electromagnetic fields in the ultrathin metallic bowtie antenna when the high-index silicon antenna is under the quasi-BIC state,a high quantum yield(QY≈0.70)is obtained.Moreover,the good radiation directivity of the quasi-BIC(bound state in the continuum)mode of the silicon antenna and the reflection of the metallic substrate result in a high collection efficiency(CE≈0.71).Consequently,the overall enhancement factor of brightness of a SPE in the hybrid nanostructure is EF?≈Fp×QY×CE≈1.3×10⁶,which is 5.6×10² times greater than those(EF?≤2.2×103)in the previous metallic and hybrid nanostructures.     

A Unique Method to Describe the Bonding Strength in a Bonded Solid-S-olid Interface by Contact Acoustic Nonlinearity

We present a unique method to describe the bonding strength at a bonded solid-solid interface in a multilayered composite material by contact acoustic nonlinearity （CAN） parameter. A CAN model on the bonded solid-solid interface is depicted. It can be seen from the model that CAN parameter is very sensitive to the bonding strength at the interface. When an incident focusing acoustic longitudinal wave scans the interface in two dimensions, the transmitted wave can be used to extract CAN parameter. The contour of the bonding strength for a sample is obtained by CAN parameter. The results show that the region with weak bonding strength can be easily distinguished from the contour.     

一种新颖的高灵敏度光纤光栅带宽调谐机构

设计了一种由一直梁和两个半圆拱组成的开口环结构,并将均匀光纤布拉格光栅斜贴于直梁中间的表面处。对两半圆拱施加与直梁方向平行的应力作用时,光纤光栅受到线性应力场的作用,光纤布拉格光栅即转化为啁啾光纤光栅。该机构实现了光纤光栅带宽的线性调谐,线性度高达0．9982,实验结果与理论分析一致。与以往的带宽调谐机构相比,该机构具有很高的应力灵敏度,在20N力的作用下,可产生约7nm的带宽反射,灵敏度达0．34nm／N。利用环境温度对带宽调谐无影响的特性,采用带宽编码技术,研制出具有温度自动补偿特性、高灵敏度的带宽调谐装置。     

嗜盐嗜碱芽孢杆菌NTT76启动子和信号肽序列的克隆及表达

利用启动子信号肽探测型质粒pGPB14,从嗜盐碱芽孢杆菌NTT76的总基因组中克隆具有启动子和信号肽功能的NDA片段,共得到41个转化子,其氨苄青霉素抗性水平在1000－12000mg/L之间,从3个不同抗性不平的转化子中提取重组质粒,酶切显示,外源插入片段在100－500bp之间,将重组粒质转化枯草芽孢杆菌,也同样使枯草芽孢杆菌具有分泌β－丙酰胺酶的功能,β－丙酰胺酶活力测定表明,大肠杆菌产生的酶主要积累在周质空间,而枯草芽孢杆菌产生的酶主要分泌在胞外,对外源插入片段进行定列测定发现,所有片段均含有启动子区、核糖体结合位点和信号肽编码区域。