摘要：【中文】本发明公开了一种增大自旋轨道耦合的方法和晶体管，该方法是采用分子束外延或金属有机物化学气相沉积的方式，在晶体管In_xGa_1‑xAs量子阱沟道层中使In组分的含量线性渐变增加，相应的，Ga组分的含量线性渐变减少。所述晶体管包括InP衬底，以及自InP衬底上依次外延生长的InAlAs缓冲层、In_xGa_1‑xAs量子阱沟道层、InAlAs空间隔离层、Si delta掺杂层、InAlAs势垒层和InGaAs帽层，其中，所述In_xGa_1‑xAs量子阱沟道层中In组分线性渐变增加。通过使用沟道线性In组分渐变来增大半导体材料（晶体管）中的自旋轨道耦合，能更好地调控自旋这个参量，为未来具有自旋轨道耦合的半导体材料能够投入到实际应用做好铺垫。 【EN】The invention discloses a method for increasing spin orbit coupling and a transistor, wherein the method adopts a mode of molecular beam epitaxy or metal organic chemical vapor deposition to carry out In on the transistor_xGa_1‑xThe content of the In component In the As quantum well channel layer is increased In a linear gradient mode, and correspondingly, the content of the Ga component is decreased In a linear gradient mode. The transistor comprises an InP substrate, and an InAlAs buffer layer and In which are epitaxially grown In sequence from the InP substrate_xGa_1‑xThe InAs quantum well comprises an As quantum well channel layer, an InAlAs space isolation layer, a Si delta doped layer, an InAlAs barrier layer and an InGaAs cap layer, wherein In_xGa_1‑xThe In composition In the As quantum well channel layer is increased In a linear gradient manner. By increasing spin-orbit coupling In semiconductor materials (transistors) using channel linear In composition grading, better regulation can be achievedThe parameter of spin lays a foundation for the future practical application of semiconductor materials with spin-orbit coupling.

摘要：【中文】本发明公开了一种高氯酸铵废水的处理方法，包括以下步骤：通过餐厨垃圾厌氧消化产氢产酸阶段，获得中间产物氢气和挥发性脂肪酸；利用中间产物氢气和挥发性脂肪酸为高氯酸盐还原菌还原高氯酸铵过程提供电子供体和碳源；采用氢自养还原、有机酸异养还原和铁/硫自养还原三级降解联合工艺，将高氯酸铵还原为氯离子，降低高氯酸铵废水的浓度，完成高氯酸铵废水的处理。本发明可显著提高高氯酸铵废水的去除效果，同时产生沼气作为清洁能源供生活生产使用，在经济的合理性和工艺可操作性方面有显著改进。 【EN】The invention discloses a method for treating ammonium perchlorate wastewater, which comprises the following steps: obtaining intermediate products of hydrogen and volatile fatty acid through an anaerobic digestion hydrogen-producing and acid-producing stage of the kitchen waste; providing an electron donor and a carbon source for the reduction process of ammonium perchlorate by perchlorate reducing bacteria by using intermediate product hydrogen and volatile fatty acid; and reducing the ammonium perchlorate into chloride ions by adopting a three-stage degradation combined process of hydrogen autotrophic reduction, organic acid heterotrophic reduction and iron/sulfur autotrophic reduction, reducing the concentration of the ammonium perchlorate wastewater and finishing the treatment of the ammonium perchlorate wastewater. The invention can obviously improve the removal effect of the ammonium perchlorate wastewater, simultaneously generates the methane as clean energy for life production and use, and has obvious improvement on the aspects of economic rationality and process operability.

摘要：【中文】本发明公开了一种内嵌黏弹性层的耗能梁，包括混凝土梁和阻尼装置，所述阻尼装置内嵌于所述混凝土梁，所述阻尼装置包括主骨架，所述主骨架包括底座，所述底座上垂直设有支架板，所述支架板上设有钢芯，所述钢芯两端均设有承压端板，所述承压端板均连接有定位套管，所述定位套管与所述钢芯位于同一轴线，所述钢芯外设有外套筒，所述外套筒两端均设有定位端板，所述钢芯与所述外套筒之间设有黏弹性耗能部位，所述黏弹性耗能部位包括至少两个黏弹性层和至少一个钢板层，所述钢板层位于两个所述黏弹性层之间。本发明将阻尼装置嵌入混凝土梁形成耗能梁，混凝土梁约束内部阻尼装置面外的变形，保证阻尼装置在既定的轴线方向上进行稳定的变形耗能工作。 【EN】The invention discloses an energy-consuming beam embedded with viscoelastic layers, which comprises a concrete beam and a damping device, wherein the damping device is embedded in the concrete beam, the damping device comprises a main framework, the main framework comprises a base, a support plate is vertically arranged on the base, a steel core is arranged on the support plate, pressure-bearing end plates are arranged at two ends of the steel core, the pressure-bearing end plates are connected with positioning sleeves, the positioning sleeves and the steel core are positioned on the same axis, an outer sleeve is arranged outside the steel core, the positioning end plates are arranged at two ends of the outer sleeve, a viscoelastic energy-consuming part is arranged between the steel core and the outer sleeve, the viscoelastic energy-consuming part comprises at least two viscoelastic layers and at least one steel plate layer, and the steel plate layer is positioned between the two viscoelastic layers. According to the invention, the damping device is embedded into the concrete beam to form the energy dissipation beam, and the concrete beam restrains the deformation outside the surface of the internal damping device, so that the damping device is ensured to perform stable deformation energy dissipation work in the given axial direction.

摘要：【中文】一种自动化稳定式纯化水机，包括预处理系统、精密过滤器、RO反渗透装置、EDI制水设备、高压泵、纯化水储罐和控制柜，所述预处理系统的出水口通过第一连接管与精密过滤器的进水口连接，精密过滤器的出水口通过第二连接管与高压泵的进水口连接，高压泵的出水口通过第三连接管与RO反渗透装置的进水口连接，RO反渗透装置的出水口通过第四连接管与EDI制水设备的进水口连接，EDI制水设备的出水口通过第五连接管与纯化水储罐的进水口连接；本发明实现了自动化生产纯化水，生产过程更加稳定，时时对数据进行追踪，效率高，产水质量好，更加节能。 【EN】An automatic stable purified water machine comprises a pretreatment system, a precision filter, an RO reverse osmosis device, EDI water production equipment, a high-pressure pump, a purified water storage tank and a control cabinet, wherein a water outlet of the pretreatment system is connected with a water inlet of the precision filter through a first connecting pipe, a water outlet of the precision filter is connected with a water inlet of the high-pressure pump through a second connecting pipe, a water outlet of the high-pressure pump is connected with a water inlet of the RO reverse osmosis device through a third connecting pipe, a water outlet of the RO reverse osmosis device is connected with a water inlet of the EDI water production equipment through a fourth connecting pipe, and a water outlet of the EDI water production equipment is connected with a water inlet of the purified water storage tank through a fifth connecting; the invention realizes the automatic production of purified water, has more stable production process, tracks data in real time, has high efficiency and good water production quality, and saves more energy.

摘要：【中文】本发明是一种具有自适应功能的数值水池系统远程多平台接入方法。本发明根据用户提交计算作业相关参数；根据计算作业的求解器类型和网格数量，推荐最优模式下所需的计算资源平台和节点核数，将计算作业放入就绪队列中；判断计算作业是否存在跨平台接入变化服务，数值水池平台系统自动解析集群作业调度策略，生成相应的执行脚本命令。将计算作业提交到本地集群，并根据最优计算核数分配计算节点。判断队列是否为空。本发明有效地解决了数值水池系统远程多平台接入问题，并能够针对计算作业量大小动态调整所接入的计算资源平台，针对数值水池系统用户实现了自适应接入方法，提高用户可操作性，增强用户体验。 【EN】The invention discloses a remote multi-platform access method of a numerical value pool system with a self-adaptive function. According to the invention, the related parameters of the calculation operation are submitted by the user; recommending a computing resource platform and a node core number required in an optimal mode according to the type of a solver and the number of grids of computing operation, and putting the computing operation into a ready queue; and judging whether the calculation operation has cross-platform access change service, and automatically analyzing the cluster operation scheduling strategy by the numerical pool platform system to generate a corresponding execution script command. And submitting the calculation operation to a local cluster, and distributing the calculation nodes according to the optimal calculation core number. And judging whether the queue is empty or not. The invention effectively solves the remote multi-platform access problem of the numerical pool system, can dynamically adjust the accessed computing resource platform according to the size of the computing workload, realizes a self-adaptive access method for a user of the numerical pool system, improves the operability of the user and enhances the user experience.

摘要：【中文】本发明公开了一种涤纶长丝纤维截面分析仪处理方法及其处理系统，所述涤纶长丝纤维截面分析仪处理系统依次包括卤素灯、由卤素灯构成的灯源组、载物台、聚光镜、物镜、目镜和电源线，其处理方法包括对视场照明、安放样本切片、调焦、机构调节、聚光镜对中、视场与孔径光阑调整、光路的选择、盘式相衬聚光镜的使用、对中光环、中间分光体的使用、数码观察头的使用。本发明的一种涤纶长丝纤维截面分析仪处理方法及其处理系统完成了由人工数孔数到电脑系统识别的转型，大大提高了生产能力，减少了人员投入的成本及因人为原因造成的低端错误。 【EN】The processing method comprises the steps of field illumination, sample slicing placement, focusing, mechanism adjustment, condenser centering, field and aperture diaphragm adjustment, light path selection, use of a disc type phase contrast condenser, centering light rings, use of a middle light splitter and use of a digital observation head. The processing method and the processing system of the polyester filament fiber section analyzer finish the transformation from manual hole counting to computer system identification, greatly improve the production capacity, and reduce the cost of personnel investment and low-end errors caused by human factors.

摘要：【中文】本发明涉及油气田勘探开发、矿产评价预测领域，尤其是一种回归‑分形插值法反演测井横波时差方法。通过小层对比，建立研究地区、研究层位地层格架；利用常规测井曲线，通过多元回归建立横波时差预测初步模型；对横波时差二维分形插值测井点循环、横波时差二维分形插值间距循环；最后分层确定横波预测模型。本发明专利采用多元回归与二维分形插值相结合的方法，建立了横波时差准确预测方法，预测结果对横波时差反演、岩石动态力学参数计算以及地质力学建模等多个方面有一定的参考意义。 【EN】The invention relates to the field of exploration and development of oil and gas fields and mineral product evaluation and prediction, in particular to a method for inverting a logging transverse wave time difference by a regression-fractal interpolation method. Establishing a stratum framework of a research area and a research horizon through small-layer comparison; establishing a transverse wave time difference prediction preliminary model by using a conventional logging curve through multivariate regression; circulating the transverse wave time difference two-dimensional fractal interpolation logging points and the transverse wave time difference two-dimensional fractal interpolation intervals; and finally, determining a transverse wave prediction model in a layering mode. The invention adopts a method of combining multiple regression and two-dimensional fractal interpolation to establish an accurate prediction method of transverse wave time difference, and the prediction result has certain reference significance to a plurality of aspects such as transverse wave time difference inversion, rock dynamic mechanical parameter calculation, geomechanical modeling and the like.

摘要：【中文】一种多核处理器上基于划分调度的DAG实时任务间的干扰分析方法，涉及嵌入式实时系统技术领域。本发明为了提高了WCRT分析的精度，从而提高实时系统系统预测任务集可调度率的准确度。本发明分析高优先级DAG任务的内部结构对低优先级任务干扰的影响，得到更精确的干扰上界。对于DAG任务的拓扑结构以及其内部子任务被分配的处理器情况，首先提出了一个并行结构，并证明了这种并行结构会导致传统的分析方法产生任务间干扰的重复计算。根据这个并行结构提出了一种减少重复计算的WCRT分析策略，有效地提高了WCRT分析的精度。此WCRT分析策略可以降低实时系统预测任务集的WCRT数值，使其更加接近任务集在系统中执行的真实值，提高实时系统系统预测任务集可调度率的准确度。本发明用于同构多核处理器上。 【EN】An interference analysis method between DAG real-time tasks based on division scheduling on a multi-core processor relates to the technical field of embedded real-time systems. The invention aims to improve the accuracy of WCRT analysis, thereby improving the accuracy of scheduling rate of a real-time system prediction task set. The method analyzes the influence of the internal structure of the high-priority DAG task on the interference of the low-priority task, and obtains a more accurate interference upper bound. For the topology structure of the DAG task and the situation of the processor with distributed sub-tasks, firstly, a parallel structure is proposed, and the parallel structure is proved to cause the repeated calculation of the interference between the tasks generated by the traditional analysis method. A WCRT analysis strategy for reducing repeated calculation is provided according to the parallel structure, and the accuracy of WCRT analysis is effectively improved. The WCRT analysis strategy can reduce the WCRT value of the real-time system prediction task set, so that the WCRT value is closer to the real value of the task set executed in the system, and the accuracy of schedulable rate of the real-time system prediction task set is improved. The invention is used for homogeneous multi-core processors.

摘要：【中文】本发明公开了一种检测牛细小病毒的双抗体夹心ELISA试剂盒及其应用。本发明使用纯化后的兔抗BPV VP2蛋白多克隆抗体作为捕获抗体，使用由保藏号为:CGMCC No.18896的杂交瘤细胞株分泌产生的单克隆抗体作为检测抗体，建立了双抗体夹心ELISA方法。特异性试验结果表明该方法特异性良好，与BRV、PRV、PEDV和TGEV均不发生反应。灵敏性试验表明该方法对病毒的最低检出量为3.125×10^2.8TCID₅₀/mL。重复性试验表明该方法变异系数均小于10％，确定该方法具有良好的重复性。通过对临床样品的检测发现，双抗体夹心ELISA方法与PCR方法的检测结果一致，符合率为100％。本发明的提出可用于牛细小病毒的诊断，并为牛细小病毒感染的防控提供了一种快速检测方法和监测手段。 【EN】The invention discloses a double-antibody sandwich ELISA kit for detecting bovine parvovirus and application thereof. The invention uses a purified rabbit anti-BPV VP2 protein polyclonal antibody as a capture antibody, uses a monoclonal antibody secreted by a hybridoma cell strain with the preservation number of CGMCC No.18896 as a detection antibody, and establishes a double-antibody sandwich ELISA method. The result of a specificity test shows that the method has good specificity and does not react with BRV, PRV, PEDV and TGEV. Sensitivity test shows that the method has the lowest virus detection amount of 3.125X 10^2.8TCID₅₀and/mL. Heavy loadThe renaturation test shows that the coefficient of variation of the method is less than 10 percent, and the method is determined to have good repeatability. The detection of clinical samples shows that the detection results of the double-antibody sandwich ELISA method and the PCR method are consistent, and the coincidence rate is 100%. The invention can be used for diagnosing bovine parvovirus and provides a rapid detection method and a monitoring means for prevention and control of bovine parvovirus infection.

摘要：【中文】一种原位制备银纳米粒子负载ZnO纳米泡沫的方法，涉及光催化材料领域，尤其涉及一种银纳米粒子负载ZnO纳米泡沫的制备方法。是要解决现有银纳米粒子负载ZnO的方法需要二次沉积步骤较繁琐，且银纳米粒子负载量及催化活性较差的问题。方法：一、制备醋酸锌‑乙醇溶液，即为种子液；二、将种子液均匀的涂敷在清洗后的FTO玻璃上，烘干，烧结，得到备有ZnO种子层的FTO玻璃；三、将备有ZnO种子层的FTO玻璃置于反应液中反应，冲洗，干燥；四、将干燥后样品烧结，即完成。制备方法操作简单，成本低，便于光催化材料的回收再利用，同时具有优良的催化降解性能。本发明用于制备银纳米粒子负载ZnO纳米泡沫材料。 【EN】A method for in-situ preparation of ZnO nano-foam loaded with silver nanoparticles relates to the field of photocatalytic materials, in particular to a method for preparing ZnO nano-foam loaded with silver nanoparticles. The method aims to solve the problems that the conventional method for loading ZnO on silver nanoparticles needs complicated secondary deposition steps and the loading capacity and catalytic activity of the silver nanoparticles are poor. The method comprises the following steps: firstly, preparing a zinc acetate-ethanol solution, namely a seed solution; uniformly coating the seed liquid on the cleaned FTO glass, drying and sintering to obtain the FTO glass with the ZnO seed layer; thirdly, placing the FTO glass with the ZnO seed layer in a reaction solution for reaction, washing and drying; and fourthly, sintering the dried sample to finish the process. The preparation method is simple to operate, low in cost, convenient for recycling of the photocatalytic material and excellent in catalytic degradation performance. The method is used for preparing the silver nanoparticle loaded ZnO nano foam material.