A super-high angular resolution principle for coded-mask X-ray imaging beyond the diffraction limit of a single pinhole

High angular resolution X-ray imaging is always useful in astrophysics and solar physics. In principle, it can be performed by using coded-mask imaging with a very long mask-detector distance. Previously, the diffraction-interference effect was thought to degrade coded-mask imaging performance dramatically at the low energy end with its very long mask-detector distance. The diffraction-interference effect is described with numerical calculations, and the diffraction-interference cross correlation reconstruction method （DICC） is developed in order to overcome the imaging performance degradation. Based on the DICC, a super-high angular resolution principle （SHARP） for coded-mask X-ray imaging is proposed. The feasibility of coded mask imaging beyond the diffraction limit of a single pinhole is demonstrated with simulations. With the specification that the mask element size is 50 × 50 μm^2 and the mask-detector distance is 50 m, the achieved angular resolution is 0.32arcsec above about 10keV and 0.36arcsec at 1.24keV （λ = 1 nm）, where diffraction cannot be neglected. The on-axis source location accuracy is better than 0.02 arcsec. Potential applications for solar observations and wide-field X-ray monitors are also briefly discussed.

Moderate Resolution Imaging Camera (MoRIC) of China’s First Mars Mission Tianwen-1

China's first Mars exploration mission will carry out comprehensive global surveys of the planet from data collected by instruments carried in orbit and roving on the planet itself.Goals of the mission include detailed inspections and surveys of key areas on the surface of Mars.One of the main scientific payloads installed on the orbiter is the moderate resolution camera.Its mission is to image the surface of Mars sufficiently to produce a global remote sensing image map of the planet,and to explore and record changes to the topography of Mars,including major geological structures,and to advance research on topography and geomorphology in general.The moderate resolution camera uses a lightweight and compact integrated design;its primary components are an optical module,a focal plane module,a camera control module,a power and interface module,a camera support module,a thermal control module,and a reference module.Radiometric calibration,color calibration,and geometric calibration have been carried out to ensure that the camera can acquire sufficient accurate data to complete mission goals.This paper introduces the camera's detection mission,its system composition,and its working principle;it also describes the camera's ground calibration tests and their results,and provides a reference for processing the camera's scientific data and for future applications.

Fine upper crustal structure of Jiashi strong earthquake swarm region in Xinjiang in-ferred from high resolution seismic refraction profile data

The data obtained from a high resolution seismic refraction profile, which was carded out in Jiashi, Xinjiang, strong earthquake swarm area, were processed with both finite difference inversion and Hagedoorn refractor wavefront imaging technique and the fine upper crustal structure was determined. The results show that the upper crustal structure is relatively well-distributed in laterally and obviously by layers vertically.From surface to 11.0 km depth, there are about four layers. The P wave velocity of top two layers range from 1.65 to 4.5 km/s and their bottom boundaries, the buried depths of which are 0.4, 2.96-3.0 km respectively, are almost horizontal; The third layer is comparatively complicated and its P wave velocity presents inhomogeneous in both laterally and vertically. The bottom boundary of third layer is crystalline basement and shows a little uplift, which seemly suggest that the upper crust had been resisted while the hard Tarim block inserting into Tianshan Mountain; The forth layer is relatively even and its P wave velocity is about 6.3 km/s. There are a lateral velocity variation at the depth of about 4.0 km, and suggest that it has something to do with the hidden Meigaiti fault and Meigaiti-Xiasuhong fault but there are no the structure features about these faults stretching to the surface and passing through the crystalline basement. The seismogenic tectonic of Jiashi strong earthquake swarm at least lies in middle or lower crust beneath 11.0 km depth.

A microscopic ancient river channel identification method based on maximum entropy principle and Wigner-Ville Distribution and its application

In view of the problem of fine characterization of narrow and thin channels,the maximum entropy criterion is used to enhance the focusing characteristics of Wigner-Ville Distribution.On the basis of effectively improving the time-frequency resolution of seismic signal,a new method of microscopic ancient river channel identification is established.Based on the principle of the equivalence between the maximum entropy power spectrum and the AR model power spectrum,the prediction error and the autoregression coefficient of AR model are obtained using the Burg algorithm and Levinson-Durbin recurrence rule.Under the condition of the first derivative of autocorrelation function being 0,the Wigner-Ville Distribution of seismic signal is calculated,and the Wigner-Ville Distribution time-frequency power spectrum(MEWVD)is obtained under the maxi-mum entropy criterion of the microscopic ancient river channel.Through analysis of emulational seismic signal and forward numerical simulation signal of narrow thin model,it is found that MEWVD can effectively avoid the interference of cross term of Wigner-Ville Distribution,and obtain more accurate spectral characteristics than STFT and CWT signal analysis methods.It is also proved that the narrow and thin river channels of different scales can be identified effectively by MEWVD of different frequencies.The method is applied to the third member of Jurassic Shaximiao Formation(J2s33-2)gas reservoir of the Zhongji-ang gas field in Sichuan Basin.The spatial information of width and direction of narrow and thin river channels with width less than 500 m and sandstone thickness less than 35 m is accurately identified,providing bases for well deployment and horizontal well fracturing section selection.

High-Resolution Stark Spectroscopy of Ba Highly-Excited States by Diode Laser Technique

High-resolution atomic-beam laser spectroscopy has been performed to study Stark effect of Ba atom. Stark spectra have been observed at various electric fields for Ba highly excited states. The scalar polarizability of the transition from 6s5d3D2 to 5d6p3F3 at 728.0 nm and the tensor polarizability of the 3F3 level have been determined for the first time, to be αs = -89.8 (12) kHz/(kV/cm)2 and αt = -133.7 (20) kHz/(kV/cm)2, respectively.

Approximate Reasoning in Fuzzy Resolution

Resolution is an useful tool for mechanical theorem proving in modelling the refutation proof procedure, which is mostly used in constructing a “proof” of a “theorem”. An attempt is made to utilize approximate reasoning methodology in fuzzy resolution. Approximate reasoning is a methodology which can deduce a specific information from general knowledge and specific observation. It is dependent on the form of general knowledge and the corresponding deductive mechanism. In ordinary approximate reasoning, we derive from A→B and by some mechanism. In inverse approximate reasoning, we conclude from A→B and using an altogether different mechanism. An important observation is that similarity is inherent in fuzzy set theory. In approximate reasoning methodology-similarity relation is used in fuzzification while, similarity measure is used in fuzzy inference mechanism. This research proposes that similarity based approximate reasoning-modelling generalised modus ponens/generalised modus tollens—can be used to derive a resolution—like inference pattern in fuzzy logic. The proposal is well-illustrated with artificial examples.

On resolution to Wu's conjecture on Cauchy function's exterior singularities

This is a series of studies on Wu＇s conjecture and on its resolution to be presented herein. Both are devoted to expound all the comprehensive properties of Cauchy＇s function f（z） （z = x ＋ iy） and its integral J[f（z）]≡（2πi）-∮cf（t）（t-z）-1dt taken along the unit circle as contour C,inside which（the open domain D＋） f（z） is regular but has singularities distributed in open domain Doutside C. Resolution is given to the inverse problem that the singularities of f（z） can be determined in analytical form in terms of the values f（t） of f（z） numerically prescribed on C（｜t｜ = 1） ,as so enunciated by Wu＇s conjecture. The case of a single singularity is solved using complex algebra and analysis to acquire the solution structure for a standard reference. Multiple singularities are resolved by reducing them to a single one by elimination in principle,for which purpose a general asymptotic method is developed here for resolution to the conjecture by induction,and essential singularities are treated with employing the generalized Hilbert transforms. These new methods are applicable to relevant problems in mathematics,engineering and technology in analogy with resolving the inverse problem presented here.

Enantio-selective preparation of (S)-1-phenylethanol by a novel marine GDSL lipase MT6 with reverse stereo-selectivity

We previously functionally characterized a novel marine microbial GDSL lipase MT6 and identified that the stereo-selectivity of MT6 was opposite to that of other common lipases in trans-esterification reactions.Herein,we have investigated the use of MT6 in stereo-selective biocatalysis through direct hydrolysis reactions.Notably,the stereo-selectivity of MT6 was also demonstrated to be opposite to that of other common lipases in hydrolysis reactions.Parameters,including temperature,organic co-solvents,pH,ionic strength,catalyst loading,substrate concentration,and reaction time,affecting the enzymatic resolution of racemic 1-phenylethyl acetate were further investigated,with the e.e.of the final（S）-l-Phenylethanol product and the conversion being 97%and 28.5%,respectively,after process optimization.The lengths of side chains of 1-phenylethyl esters greatly affected the stereo-selectivity and conversion during kinetic resolutions.MT6 is a novel marine microbial GDSL lipase exhibiting opposite stereo-selectivities than other common lipases in both trans-esterification reactions and hydrolysis reactions.

格值一阶逻辑系统LF(X)中带广义量词的α-归结原理

讨论格值一阶逻辑系统LF(X)中带广义量词的α-归结,证明了带广义量词的Herbrand-定理,为格值一阶逻辑系统中带广义量词的不确定性自动推理作了理论的准备。

MRA-PCA-PSO组合优化BP神经网络模拟电路故障诊断研究

为解决模拟电路故障诊断中的特征提取困难、输入维数过高和故障信号无法进行有效分类等问题,提出一种组合优化反向传播神经网络故障诊断方法。首先采用多分辨率分析提取故障信号特征,用其能量谱构造特征向量,通过主成分分析进行降维,以减少计算规模,然后利用粒子群算法优化神经网络,克服其易陷入局部极小值的缺陷,从而达到准确识别故障类型的目的。最后以四运放高通滤波电路为测试对象,通过仿真验证该方法在模拟电路故障诊断的有效性和可靠性,结果表明能提高约10%的诊断准确率。

基于Gamma-SLC混合密度估计的雷达目标识别

通过分析高分辨距离像(HRRP)的统计特性,提出一种Gamma模型与基于累积量的随机学习算法(SLC)相结合,估计HRRP概率密度的新方法:Gamma-SLC方法。该方法具有Gamma分布针对性强,估计准确与SLC适应性强的优点,同时回避了二者的缺点。另外,借鉴最大熵原则的非高斯性测度,设计了一个新的评价概率密度估计效果的准则。基于外场实测数据的实验证明了Gamma-SLC方法的有效性。

基于格值命题逻辑系统LP(X)的多元α-归结原理的注记

进一步深入研究了基于格蕴涵代数的格值命题逻辑系统LP(X)的多元α-归结原理的基本理论,给出了基于LP(X)的多元α-归结演绎中参与多元α-归结的广义文字个数随着归结演绎的推进而动态变化的基本原则;对基于LP(X)的多元α-归结原理的有效性进行了一定分析,这为建立基于LP(X)的多元α-归结方法以及构造多元α-归结算法奠定了理论基础。

基于格值一阶逻辑LF(X)的多元α-归结原理的注记

进一步深入研究了基于格蕴涵代数的格值一阶逻辑系统LF(X)的多元α-归结原理的基本理论,给出了在基于LF(X)的多元α-归结演绎中参与多元α-归结的广义文字个数随着归结演绎的推进而动态变化的基本原则。对基于LF(X)的多元α-归结原理的有效性进行了一定分析;这为建立基于LF(X)的多元α-归结方法以及构造多元α-归结算法建立了理论基础。

格值命题逻辑系统LP(X)的Ⅱ-α-超归结原理

针对格值命题逻辑中归结自动推理算法的效率问题,在格值命题逻辑系统中的α-归结原理基础上,提出了格值命题逻辑系统LP(X)上的II-α-超归结原理,并证明了其可靠性和完备性。最后,通过一个具体的例子来说明II-α-超归结原理对于提高自动推理算法的效率十分有效。

具有三种否定的模糊命题逻辑形式系统FLCOM的λ-归结

考虑到模糊逻辑中定理自动证明的重要性以及目前主要研究具有一种否定的模糊逻辑的归结原理,文中对具有三种否定(矛盾否定、对立否定和中介否定)的模糊命题逻辑(FLCOM)的归结原理进行研究.基于FLCOM的一种无穷值语义解释提出λ-可满足的和λ-不可满足的概念.将λ-归结方法引入FLCOM,给出FLCOM的λ-归结演绎定义,讨论FLCOM的λ-归结原理,并证明FLCOM的λ-归结方法的完备性.基于λ-归结方法和已证明的结论给出实例以佐证文中λ-归结方法和结论的正确性和可行性.因此,在FLCOM范围内可判定任一模糊命题公式是否是λ-可满足的或λ-不可满足的.

Asymmetric synthesis of syn-aryl-(2S,3R)-2-chloro-3-hydroxy esters via an engineered ketoreductase-catalyzed dynamic reductive kinetic resolution

We report here a generic,green synthesis of 17 valuable syn-aryl-(2S,3R)-2–chloro-3–hydroxy esters(syn-(2S,3R)-1)in 73%-99%isolated yields along with 6.1:1–83:1 dr and 31%~>99%ee,through dynamic reductive kinetic resolution of racemic arylα–chloroβ-keto esters(2)catalyzed by an engineered ketoreductase which was obtained via ep PCR-based directed evolution.The hectogram scale synthesis of syn-(2S,3R)-1b at a substrate concentration of 120 g/L showcased the application potential of the biocatalytic method developed presently.

基于理想解-冲突法六足机器人的创新设计

目的在保持产品原有优点的同时,进一步改善其功能集成度和适应性等要求,方法提出一种基于理想解-冲突法的产品创新设计策略,首先对产品系统进行全面分析,并且确定出系统的理想解,将理想解与当前产品系统进行比较,找出当前产品系统存在的问题,进而分析并确定产品系统存在的冲突,然后应用冲突解决原理解决,结果最终确定了产品系统进一步的改进方案。结论通过该策略对六足仿生机器人的前肢进行了创新设计,显著提高了机器人的工作效率和环境适应性,并应用运动学仿真软件对改进的六足机器人进行了行走和排爆仿真,仿真结果表明该机器人具有良好的移动性能和执行性能,从而验证了所提创新设计策略的可行性。

基于最大熵准则的Wigner-Ville分布与微型古河道刻画方法及应用

针对窄细古河道精细刻画难题,利用最大熵准则增强Wigner-Ville分布的聚焦特性,在有效提升地震信号时频分辨能力的基础上,建立了一种微型古河道识别新方法。基于最大熵功率谱与自回归模型(AR)功率谱等效的原理,首先利用Burg算法和Levinson-Durbin递推规则,求取AR模型的预测误差、自回归系数等参数;然后,在自相关函数一阶导数为0的条件下,计算地震信号的Wigner-Ville分布,获取微型古河道最大熵准则约束下的Wigner-Ville时频功率谱(MEWVD)。通过仿真地震信号和窄薄模型数值模拟信号实验分析,发现MEWVD既能有效避免Wigner-Ville分布的交叉项干扰,还能获得比短时傅里叶变换(STFT)、连续小波变换(CWT)等信号分析方法更加精准的频谱特征;同时,还证实了利用不同频率的MEWVD,可以有效识别不同尺度的窄细古河道。将该方法应用于四川盆地中江气田侏罗系沙溪庙组(J_(2)s_(3)^(3-2)小层)气藏,准确地识别出宽度小于500 m、砂岩厚度小于35 m的窄细古河道的宽度、走向等空间信息,可为井位部署、水平井压裂选段等提供依据。

Standard-sample bracketing calibration method combined with Mg as an internal standard for silicon isotopic compositions using multi-collector inductively coupled plasma mass spectrometry

Silicon isotope analysis traditionally uses a standard-sample bracketing （SSB） method that relies upon greater instrument stability than can be consistently expected. The following proposed method reduces the level of instrumental stability required for the analysis process and provides a valid solution for high-precision and accurate studies of Si isotopic compositions. Rock samples were dissolved by using alkali fusion and acidification. Silicon isotopes were purified with an ion exchange resin. Interfering peaks for isotopes were separated by using a Nu Plasma 1700 multi-collector inductively coupled plasma mass spectrometry （MS） system in high-resolution mode （M/AM 〉 8000 RP）. Two magnesium isotopes （25Mg and 26Mg） and three silicon isotopes （28Si, 29Si, and 3;Si） were analyzed in the same data collection cycle. Mg isotopes were used as an internal standard to calibrate the mass discrimination effects in MS analysis of Si isotopes in combination with the SSB method in order to reduce the effects of MS interference and instrumental mass dis- crimination on the accuracy of measurements. The conventional SSB method without the Mg internal standard and the proposed SSB method with Mg calibration delivered consistent results within two standard deviations. When Mg was used as an internal standard for calibration, the analysis precision was better than 0.05 %0 amu.