相关于弦论的规范不变自对偶场的Faddeev-Jackiw量子化

用Faddeev-Jackiw(FJ)方法对与规范场偶合的规范自对偶场进行了研究, 获得了一个新的辛Lagrangian密度, 导出了此系统的FJ广义括号, 并对其进行了FJ量子化. 进而把FJ方法和Dirac方法进行了比较, 发现在对此系统的量子化中, 两种方法所给出的量子化结果完全是等价的. 通过分析可知FJ方法比Dirac方法要简单, 因FJ方法不需要区分初级约束与次级约束, 而且也不需要区分第一类约束和第二类约束. 故与Dirac方法相比, FJ方法是一种计算上更为经济和有效的量子化方法.     

非平行板电容器的电容和电场的计算

本文采用保角变换的方法计算非平行板电容器的电容和场强,本方法与以往所见的方法不同,它简洁、严谨。     

构建光谱学精度的从头算偶极矩函数的基组依赖性

最近,人们对使用理论方法构建偶极矩函数给予了更多关注. 然而,构建偶极矩函数的计算方法并没有像势能面的计算方法那样得到充分测试. 本文以Ar-He为例,测试了如何用从头算方法构建达到光谱学精度的偶极矩函数. 特别关注了基组依赖性,即偶极矩函数随基组大小、基组叠加误差和键函数的收敛性. 本文还测试了显相关的方法在构建偶极矩函数的表现,相比传统方法,显相关方法在更小的基组即可收敛. 本文为使用不同从头算方法构建偶极矩函数提供了直观的对比.     

基于SIMPLE的紧致方法

通过泰勒展式系数匹配的方法发展了基于非等距网格的有限容积紧致格式,采用延迟修正的方法建立了基于SIMPLE的紧致方法,,该方法能够得到高精度的数值解,增加迭代求解代数方程组的稳定性。对底部加热的方腔内自然对流换热问题进行数值模拟,结果表明,紧致方法比二阶中心差分方法具有更高的精度。     

椭圆截面的Abel逆变换方法

介绍了等离子体椭圆截面的Abel逆变换方法,并和圆截面的Abel逆变换方法进行了比较。给定一个探测阵列对一个辐射源函数的测量结果,分别用Barr方法、等值同心圆方法和幂级数方法进行了椭圆逆变换,结果表明该方法的可靠性可应用于实验数据处理中。     

圆周运动的新解

提出了一个涵盖匀速和变速圆周运动在内的新的推导方法 ,并与其它的推导方法进行比较 ,可看出该方法更优越。     

结构生物学的新进展

文章概括地介绍了结构生物学在整个生命科学中的地位,结构生物学的研究内容和结构生物学的三种主要的研究方法[X射线单晶衍射方法,核磁共振（NMR）方法和电子显微方法],介绍了这三种方法在近年来所取得的新成果,重点介绍了冷冻电子显微技术结合计算机三维重构技术研究病毒三维结构的方法,特点以及所取得的成果,并简单介绍了物理学家在结构生物学研究中的作用。     

求Emden-Fowler方程积分的分析力学方法

研究求Emden-Fowler方程积分的分析力学方法,包括Hamilton-Poisson方法,Lagrange-Noether方法,Lie-Hojman方法以及Hamilton-Jacobi方法等.     

由已知相应的静电静磁问题求电动力学问题的解

一.引言 在电磁现象问题中,比拟的方法是最常用的方法之一。在这方面,新提出的一个问题是从已知的静电或静磁问题出发,即可求相应的电动力学问题;应用这个方法,可以解决一些较复杂的问题。但是,现有的处理这个问题的方法还欠缺普遍性。本文的目的就是要使这个方法更具普遍性,就是说要使这个方法包括更大的范围。     

面内位移测量的基于梯度的数字图像相关方法

将整像素位移搜索和基于微区统计性质的亚像素位移梯度算法相结合的数字图像相关方法具有计算简单、求解效率高等优点。该方法的基本假设是变形前后的子区做刚体平移,这则与有位移梯度存在的实际情况相矛盾。首先分析了该基本假设的理论误差,在基于梯度的数字图像相关方法中,得出变形子区做刚体平移的假设和在Newton-Rapshon方法中子区均匀变形的假设所获得的变形子区中心位移在理论上为相同的结论。然后用四组实验来验证该方法在实际实验条件下的计算精度和稳定性,并在铝板试件的单向拉伸实验中,将该方法与N-R方法在有应变存在情况下的计算结果作比较,结果表明该方法计算的位移和理论位移符合得很好,但其计算速度和效率要远优越于N-R方法。     

基于光谱和成像技术的果蔬质量检测研究进展

为保证食品安全和消费者健康,无损检测技术广泛应用于果蔬质量检测中。光谱和图像技术可分别获取果蔬的内部和外部信息,成为质量检测的有效工具。为跟踪国内外研究进展并分析研究现况,从果蔬外部品质(尺寸、形状、表面缺陷、颜色、纹理等)、内部品质(内部缺陷、可溶性固形物、可滴定酸、水分、类胡萝卜素等单一品质及综合品质)、成熟度、货架期/贮藏期、产品溯源、生长监测、安全(农药残留、病虫和细菌侵染、转基因产品等)检测及光学系统设计等方面综述了光谱和成像技术的应用,分析了存在的图谱库不完善、解混处理算法复杂、高精度和便携式的光学系统开发力度不够、校正模型的影响因素复杂等问题。然后,归纳了发展趋势,指出了各组分可视化分析及交互作用机理解析、光与果蔬组织的交互作用机理分析和光学特性参数反演等光学特性分析、科学合理的综合评价体系的建立、新算法的应用和多种算法的联合使用、不同算法的可靠性和稳定性的提高、稳定和普适模型的建立、低成本和便携式等光学分析仪器的商品化开发和商业化应用等成为进一步探索的方向,为基于光谱和成像技术的果蔬质量检测发展提供了参考。     

光谱及成像技术在果蔬损伤检测研究中的应用现状与展望

果蔬在收获、运输、贮藏、分拣、包装和销售过程中均会遭受不同程度的挤压、碰撞或摩擦,从而造成果蔬损伤,如挤伤、开裂、擦伤等外部损伤,同时,在生长过程中会产生黑心、水心、褐腐、霉心等内部损伤。果蔬损伤初期特征不明显,外观与正常果实基本无异,然而随着时间的推移,损伤组织恶化扩散,最终导致整个果实腐烂变质,又进而接触感染其他果实,造成周边甚至整箱果蔬病变,对果蔬产业造成巨大的经济损失。果蔬采后损伤检测方法多种多样,其中人工检测最为简单常用,但是该方法不仅耗时耗力,容易造成错判和漏判现象,而且无法实现肉眼不可见的皮下或内部损伤检测。近年来,随着计算机技术的快速发展,越来越多的无损检测技术被广泛应用于果蔬损伤检测,其中最为常用的当属光谱和成像技术。光谱成像技术通常结合图像处理、光谱分析、化学计量学方法、统计分析等手段,利用损伤果蔬和正常果蔬的图谱信号差异实现损伤检测,具有无损、快速等优点,能解决人工检测耗时耗力且准确率低的问题。在此主要概述了8种光谱及成像技术（近红外光谱、拉曼光谱、荧光光谱、高光谱成像、空间频域成像、核磁成像、X射线成像和热成像）在果蔬损伤检测的最新研究进展,包括检测原理及其技术特点,总结分析了各技术在果蔬损伤检测方面的应用情况,并展望未来发展趋势,以期为果蔬损伤无损检测提供借鉴与参考。     

电感耦合等离子体光谱法测定新疆奎屯氟砷中毒患者尿中的14种元素含量的研究

建立一种用电感耦合等离子体光谱法测定氟中毒,氟砷联合中毒患者尿中的K,Na,Ca,Mg,P,Zn,Al,Ba,Co,Cu,Ni,Sr,Cr,Ti 14种元素含量的方法。研究了电感耦合等离子体光谱法的操作条件及各元素的检出限,精密度和线性范围,方法的相对标准偏差为0.24%～2.47%(n=10)。平均回收率为90.4%～100.5%。与健康对照组比较,氟中毒和氟砷联合中毒患者组尿中的K,Na的含量高于健康对照组;氟砷联合中毒患者尿液中的Ba,Co,Cu,Ni,Cr的含量比氟中毒组和对照组的要高,具有统计学意义(P＜0.05)。P,Ca,Mg,Zn,Al,Ti,Sr三组间比较无统计学意义(P＞0.05)。方法灵敏,简单,重现性好,数据可靠。     

Principles of demineralization: modern strategies for the isolation of organic frameworks. Part II. Decalcification

This is the second paper on principles of demineralization. The initial paper is dedicated to the common definitions and the history of demineralization. In present work we review the principles and mechanisms of decalcification, i.e., removing the mineral Ca-containing compounds (phosphates and carbonates) from the organic matrix in its two main aspects: natural and artificial. Natural chemical erosion of biominerals (cavitation of biogenic calcareous substrata by bacteria, fungi, algae, foraminifera, sponges, polychaetes, and mollusks) is driven by production of mineral and organic acids, acidic polysaccharides, and enzymes (cabonic anhydrase, alkaline and phosphoprotein phosphataes, and H(+)-ATPase). Examples of artifical decalcification includes demineralization of bone, dentin and enamel, and skeletal formations of corals and crustacean. The mechanism and kinetics of Ca-containing biomineral dissolution is analyzed within the framework of (i) diffusion-reaction theory; (ii) surface-reaction controlled, morphology-based theories, and (iii) phenomenological surface coordination models. The application of surface complexation model for describing and predicting the effect of organic ligands on calcium and magnesium dissolution kinetics is also described. Use of the electron microscopy-based methods for observation and visualization of the decalcification phenomenon is discussed.     

XRF与ICP-MS法在福建省安溪县和华安县的铁观音茶中元素含量测定的应用研究

安溪是铁观音茶的源产地,茶叶总产值每年数亿元,但不同品质的铁观音茶价格参差不齐,市场上存在以次充好的现象。福建省安溪县和华安县为铁观音主要的茶产地,两县市的茶叶产量市场占有率较高,地理位置毗邻,但茶叶品质和风味各有不同,造成茶叶市场的困扰。铁观音中微量元素种类和含量的检测,对产地的溯源具有重要的意义。采用X射线荧光光谱无标样半定量分析法(XRF)和微波消解/电感耦合等离子体质谱法(ICP-MS)对福建省主要茶产区安溪县(感德、西坪、祥华)和华安县(良村、华丰、仙都)的30份铁观音进行元素含量对比分析。XRF法检测出两县茶样中存在的元素种类有K, Ca, S, P, Mg, Al, Si, Cl, Fe, Mn, Rb, Zn, Na和Sr,但含量上存在一定的差异。根据XRF法检测结果进行快速、准确稀释茶样用于ICP-MS法对比测定金属元素,优化样品前处理方法以满足痕量检测要求。对比发现当测定Ca, Mg, Al, Fe, Mn和Zn金属元素时,相关性系数R²在0.824 8～0.892 8,趋势线斜率在0.806 0～0.944 9, XRF法和ICP-MS法的可...     

Laser absorption and fluorescence diagnostics of a plasma

Diagnostics of a near-surface laser plasma, the plasma of a strong-current pulse gaseous discharge in inert gases, nitrogen, and carbon dioxide under conditions of intense evaporation of the wall of the discharge chamber, the plasma of a discharge with a hollow cathode, and the active medium of an excimer laser was conducted by methods of intracavity laser spectroscopy and laser-induced fluorescence. The dynamic fields and absolute concentrations of atoms, ions, molecules and electrons, the plasma temperature, and the velocities of flows of particles were measured. The quantitative determination of the density of particles in the erosion laser flame prior to breakdown and the phenomena associated with the formation of molecules in the laser plasma received primary consideration. To whom correspondence should be addressd. Instite of Molecular and Atomic Physics of the Academy of Sciences of Belarus, 70, F. Skorina Ave., Minsk, 220072, Belarus. Translated from Zhurnal Prikladnoi Spektroskopii, Vol. 64, No. 3, pp. 281–290, May–June, 1997.     

Features and states of microscopic particles in nonlinear quantum-mechanics systems

In this paper, we present the elementary principles of nonlinear quantum mechanics (NLQM), which is based on some problems in quantum mechanics. We investigate in detail the motion laws and some main properties of microscopic particles in nonlinear quantum systems using these elementary principles. Concretely speaking, we study in this paper the wave-particle duality of the solution of the nonlinear Schr?dinger equation, the stability of microscopic particles described by NLQM, invariances and conservation laws of motion of particles, the Hamiltonian principle of particle motion and corresponding Lagrangian and Hamilton equations, the classical rule of microscopic particle motion, the mechanism and rules of particle collision, the features of reflection and the transmission of particles at interfaces, and the uncertainty relation of particle motion as well as the eigenvalue and eigenequations of particles, and so on. We obtained the invariance and conservation laws of mass, energy and momentum and angular momentum for the microscopic particles, which are also some elementary and universal laws of matter in the NLQM and give further the methods and ways of solving the above questions. We also find that the laws of motion of microscopic particles in such a case are completely different from that in the linear quantum mechanics (LQM). They have a lot of new properties; for example, the particles possess the real wave-corpuscle duality, obey the classical rule of motion and conservation laws of energy, momentum and mass, satisfy minimum uncertainty relation, can be localized due to the nonlinear interaction, and its position and momentum can also be determined, etc. From these studies, we see clearly that rules and features of microscopic particle motion in NLQM is different from that in LQM. Therefore, the NLQM is a new physical theory, and a necessary result of the development of quantum mechanics and has a correct representation of describing microscopic particles in nonlinear systems, which can solve problems disputed for about a century by scientists in the LQM field. Hence, the NLQM built is very necessary and correct. The NLQM established can promote the development of physics and can enhance and raise the knowledge and recognition levels to the essences of microscopic matter. We can predict that nonlinear quantum mechanics has extensive applications in physics, chemistry, biology and polymers, etc.      

Features and states of microscopic particles in nonlinear quantum-mechanics systems

In this paper, we present the elementary principles of nonlinear quantum mechanics (NLQM), which is based on some problems in quantum mechanics. We investigate in detail the motion laws and some main properties of microscopic particles in nonlinear quantum systems using these elementary principles. Concretely speaking, we study in this paper the wave-particle duality of the solution of the nonlinear Schrödinger equation, the stability of microscopic particles described by NLQM, invariances and conservation laws of motion of particles, the Hamiltonian principle of particle motion and corresponding Lagrangian and Hamilton equations, the classical rule of microscopic particle motion, the mechanism and rules of particle collision, the features of reflection and the transmission of particles at interfaces, and the uncertainty relation of particle motion as well as the eigenvalue and eigenequations of particles, and so on. We obtained the invariance and conservation laws of mass, energy and momentum and angular momentum for the microscopic particles, which are also some elementary and universal laws of matter in the NLQM and give further the methods and ways of solving the above questions. We also find that the laws of motion of microscopic particles in such a case are completely different from that in the linear quantum mechanics (LQM). They have a lot of new properties; for example, the particles possess the real wave-corpuscle duality, obey the classical rule of motion and conservation laws of energy,momentum and mass, satisfy minimum uncertainty relation, can be localized due to the nonlinear interaction, and its position and momentum can also be determined, etc. From these studies, we see clearly that rules and features of microscopic particle motion in NLQM is different from that in LQM. Therefore, the NLQM is a new physical theory, and a necessary result of the development of quantum mechanics and has a correct representation of describing microscopic particles in nonlinear systems, which can solve problems disputed for about a century by scientists in the LQM field. Hence, the NLQM built is very necessary and correct. The NLQM established can promote the development of physics and can enhance and raise the knowledge and recognition levels to the essences of microscopic matter. We can predict that nonlinear quantum mechanics has extensive applications in physics, chemistry, biology and polymers, etc.     

Nanodiamonds in magnetic recording system technologies

Features of the codeposition process of Ni, Ni-Fe, Co-P, Co-Fe-P, Ni-P, Ni, and Cu matrices with ultradispersed diamond particles from a sulfate, chloride, acetate, glycine, citrate, and sulfamate baths were investigated in view of applications in magnetic recording systems. The cation and anion surfactants were used to study the liophobic colloid systems and the behavior of ultrafine particles, to prevent agglomeration and sedimentation, and to control particle incorporation into the metal matrix. The mechanical properties of composite films were described from the point of view of applications in high-tech devices. It was determined that wear resistance increased by 2–2.5 times, the microhardness increased by 2 times, and the coefficient of friction and corrosion current decreased by a factor 1.5 and 1.6, respectively. The application of nanodiamond particles in the technology of composite functional layers of hard disks, magnetic heads, micromotors, and micromechanical components makes it possible to considerably increase the reliability of storage information systems.     

光谱分析在煤结构研究中的进展

煤结构是各类煤相关研究的微观基础,光谱分析作为煤结构研究的重要方法被广泛应用,其在煤结构研究中的进展对光谱分析方法的普及、应用和发展有重要意义.光谱分析方法研究煤结构已成为煤化工领域使用的常规方法,能够快速无损检测,对煤分子结构的破坏小,可为不同环境条件下煤物理化学性质的变化提供有效的检测手段.从光谱分析在煤质、大分子...