热声制冷的实验研究

自行研制了热声驱动脉管制冷机实验台,着重研究了加热温度、平均工作压力、小孔开度、工质各类等因素对脉管制冷机性能的影响。初步实验表明,以氮、氦及氦和氩混合物（氦占94％）作工质,分别获得了234.5K、179K及165K的无负荷制冷温度,此外,本文还指出了进一步改进方向,具有一定参考价值。     

压力对热声驱动脉管制冷机性能的影响

讨论了充气压力对热声压缩机的起振温度等性能的影响 ,着重研究了工作压力对热声驱动脉管制冷机性能的影响。对自行研制的驻波型热声驱动脉管制冷机进行了改进和优化 ,在最近的实验中取得了 1 2 0 K的无负荷最低制冷温度 ,达到液化天然气温区。     

热驱动室温行波热声制冷机的实验研究

本文报道了热声驱动的室温行波热声制冷机的实验研究。以氦气为工质研究了平均充气压力、工作频率等参数对制冷性能的影响。实验达到的最好结果为:最低温度为-47℃,在-20℃的制冷量为80W,按输入制冷机的P-V功计算,相应的制冷系数COP达到1.6左右。     

驻波型热声制冷机的搭建及理论验证

基于驻波特性和换热基本理论设计并搭建了一台驻波型热声制冷样机,并对利用压力声学和线性热声理论分析热声效应的方法分别进行了验证.系列控制变量实验表明,当扬声器的驱动电压为7 V,驱动频率为315 Hz,无量纲化的热声堆位置为0.27时,样机冷端可获得2.16 K的理想降温;且扬声器的驱动电压在测定范围内对制冷量的影响呈现明显的正相关.采用该实验装置的物理参数值,利用DeltaEC程序和线性热声学理论的计算较好地吻合了实验结果,验证了这种分析方法的可行性.     

非线性热声理论的研究进展

主要总结了热声系统中的非线性热声现象,指出了线性热声理论的不足,回顾了近十年来国内外热声工作者为解释这些非线性现象所做的理论探索,对其发展方向进行了展望.     

行波型热声热机的研究进展

Ceperley首先提出了行波型热声热机的概念 ,此后许多研究者对此类型的热机进行了理论及实验研究。文中对行波型热声热机的发展历史、研究现状及应用前景进行了简要介绍     

双行波热声制冷机耦合方式研究

双行波热声制冷机因为其内禀的高效率、热驱动及无运动部件的优点,非常有潜力成为常规制冷方式的一种替代技术。为了详细地研究它的工作特点,我们发展了一套较完整的热声模拟程序,可以准确地预测系统工作频率,在一定的误差范围内给出系统的热力性能,并对系统起振的难易程度进行有效的判断。借助于此套程序,我们对行波发动机驱动的行波制冷机进行了数值模拟,主要是对它们之间两种不同的耦合方式(旁通耦合和末端耦合)进行了对比,初步实验结果显示了程序的有效性。     

扬声器驱动热声制冷机设计研究

热声制冷机主要由声驱动器、共振管、板叠、高低温端换热器、声容等部件组成。它具有运动部件少、运行可靠、振动小和寿命长等优点 ,在军事、航天、微电子、低温物理等领域有着十分诱人的应用前景。文中运用经典线性热声理论对热声制冷机各个组成部件设计进行了介绍 ,在此基础上设计了一台扬声器驱动热声制冷机 ,并用专业计算软件进行了数值模拟验证 ,为热声制冷机进一步优化与发展提供了一个解决方案。     

扬声器驱动热声制冷机的研究进展

热声制冷技术是一项新型的制冷技术,它具有运动部件少、运行可靠、振动小、寿命长、对环境无污染等优点,在航天、超导、低温电子、低温生物等众多领域有着十分广阔的应用前景。本文阐述热声制冷效应的基本原理和热声制冷循环之后,系统介绍了热声制冷机中共振管、板毪、换热器、动力源(扬声器)等部件和制冷工质的研究情况。同时,指出了扬声器驱动热声制冷存在的问题,并对热声制冷的发展进行了展望。     

直线电机驱动回热器性能研究

本文提出并搭建了一种采用直线电机驱动的回热器热声转换实验台,通过调节负载阻抗改变回热器处声场条件,研究回热器在不同声场下热声转换特性。文中首先对实验系统进行了数值模拟,结果表明,回热器存在最优的工作声场,但由于有限水力半径因素,最优声场会偏离行波相位。计算中系统获得了最大1300 W净输出声功,热声效率达到35%。之后进行的实验实现了回热器处声场的调节,验证了回热器的声功放大作用,并获得了与数值计算相同的趋势。     

Trees at an Interface

A lattice tree at an interface between two solvents of different quality is examined as a model of a branched polymer at an interface. Existence of the free energy is shown, and the existence of critical lines in its phase diagram is proven. In particular, there is a line of first order transitions separating a positive phase from a negative phase (the tree being predominantly on either side of the interface in these phases), and a curve of localization–delocalization transitions which separate the delocalized positive and negative phases from a phase where the tree is localized at the interface. This model is generalized to a branched copolymer which is examined in a certain averaged quenched ensemble. Existence of a thermodynamic limit is shown for this model, and it is also shown that the model is self-averaging. Lastly, a model of branched polymers interacting with one another through a membrane is considered. The existence of a limiting free energy is shown, and it is demonstrated that if the interaction is strong enough, then the two branched polymers will adsorb on one another.     

一种新的可逆二维混沌映射图像加密算法

提出了一种用于图像加密的可逆二维混沌映射,该映射由左映射和右映射两个子映射组成。通过对图像的拉伸和折叠处理,实现了图像的混沌加密。首先沿图像的对角线方向将正方形图分为上下两个部分并重新组合成一个平行四边形的图像;然后利用平行四边形图像的两列像素之间的像素数目差将某列中的像素插入到相邻下一列像素之间。经过这样的过程,原始图像拉伸成为一条直线。最后按照原始图像的大小将这条直线折叠成为一个新的图像。推导出了映射的数学表达式,设计了密钥产生的方法,分析了图像加密算法的安全性问题。仿真验证了该图像加密算法的有效性。     

Gain calculation of a free-electron laser operating with a non-uniform ion-channel guide

Amplification of an electromagnetic wave by a free electron laser (FEL) with a helical wiggler and an ion channel with a periodically varying ion density is examined. The relativistic equation of motion for a single electron in the combined wiggler and the periodic ion-channel fields is solved and the classes of possible trajectories in this configuration are discussed. The gain equation for the FEL in the low-gain-per-pass limit is obtained by adding the effect of the periodic ion channel. Numerical calculation is employed to analyse the gain induced by the effects of the non-uniform ion density. The variation of gain with ion-channel density is demonstrated. It is shown that there is a gain enhancement for group I orbits in the presence of a non-uniform ion-channel but not in a uniform one. It is also shown that periodic ion-channel guiding is used to reach the maximum peak gain in a low ion-channel frequency (low ion density).     

Completely mixed state is a critical point for three-qubit entanglement

Pure three-qubit states have five algebraically independent and one algebraically dependent polynomial invariants under local unitary transformations and an arbitrary entanglement measure is a function of these six invariants. It is shown that if the reduced density operator of a some qubit is a multiple of the unit operator, than the geometric entanglement measure of the pure three-qubit state is absolutely independent of the polynomial invariants and is a constant for such tripartite states. Hence a one-particle completely mixed state is a critical point for the geometric measure of entanglement.     

Time adaptive variational integrators: A space-time geodesic approach

The goal of this paper is to show that the space-time geodesic approach of classical mechanics can be used to generate a time adaptive variational integration scheme. The only assumption we make is that the Lagrangian for the system is in a separable form. The geometric structure which is preserved in the integration scheme is made explicit and the algorithm is illustrated with simulation for a compact case, a non-compact case, a chaotic system which arises as a perturbation of an integrable system and the figure eight solution for a three body problem.     

The precision improvement of the scanner in optical scanning imaging system

A disadvantage of using a galvanometer as the horizontal scanner in CSOM and OCT is its nonlinear distortion caused by the rotational inertial. This is inevitable even if a closed loop is equipped. Here, a second closed loop is introduced to provide pixel clocks to reduce the pincushion distortion of the images. A subdivided step motor is employed to be the vertical scanner as the result of price consideration. Nonetheless, the conventional linearity model of the peck torque with a winding current relationship is no longer in agreement with the experiment when the winding current is low, while a parabolic model is more likely to be reasonable. Relational treatment is proposed in the paper. Both methods have proved to be good enough to meet the requirement of a super resolution scanning imaging.     

Simultaneous effects of magnetic field and space porosity on compressible Maxwell fluid transport induced by a surface acoustic wave in a microchannel

Peristaltic motion induced by a surface acoustic wave of a viscous, compressible and electrically conducting Maxwell fluid in a confined parallel-plane microchannel through a porous medium is investigated in the presence of a constant magnetic field. The slip velocity is considered and the problem is discussed only for the free pumping case. A perturbation technique is employed to analyze the problem in terms of a small amplitude ratio. The phenomenon of a “backward flow” is found to exist in the center and at the boundaries of the channel. In the second order approximation, the net axial velocity is calculated for various values of the fluid parameters. Finally, the effects of the parameters of interest on the mean axial velocity, the reversal flow, and the perturbation function are discussed and shown graphically. We find that in the non-Newtonian regime, there is a possibility of a fluid flow in the direction opposite to the propagation of the traveling wave. This work is the most general model of peristalsis created to date with wide-ranging applications in biological, geophysical and industrial fluid dynamics.     

Hybrid diffractive-refractive 40° head-mounted display

The design of a head-mounted display with a field of view of 40 degrees and suitable for use with a micro display of 17.5 mm diagonal is presented. It is a combination of a diffractive-refractive eyepiece with an appropriate reflective relay system. The eyepiece design is based on a Kellner eyepiece. By replacing the cemented-doublet of the traditional eyepiece with a diffractive-refractive element (a plano-convex lens with the plane surface as the diffractive surface) an improved eyepiece is obtained. The proposed eyepiece shows a considerable reduction in physical size (which is particularly important for binocular systems) and weight, and exhibits superior performance compared to the traditional refractive type. It is emphasized that the proposed design has a performance that is well matched to a micro display with SXGA resolution.     

On the presence of spatial pattern formation in a bistable dynamical system

The aim is to investigate whether in a structural bistable reaction-diffusion system pattern formation may emerge simultaneously from both steady states. Therefore, a dynamical system is modelled by three coupled nonlinear differential equations from which synergetic ordering may arise. In addition, the nonlinear terms are chosen such that the homogeneous system is governed by the canonical form of a cusp bifurcation in a two-dimensional control space. Thus, structural bistability is established. Based on a linear stability analysis the region of bistability is decomposed into four different domains in the control plane. It is shown that in one of these domains self-organization can lead to pattern formation from both steady states simultaneously. In two other domains self-organization can arise from only one steady state and finally in one domain patterning is impossible. An expression for the wavelength of a spatial structure is derived and discussed in terms of parameters of the system. As a possible application of the present results a crystal under irradiation with particles of high energy is considered. It is demonstrated for the case of steel that the parameters of the system can be chosen such that a two-fold spatial instability for irradiation induced cavities may emerge.     

Tunneling and transport problems for a quantum mechanical Brownian particle

The Kanai model of a quantum mechanical Brownian particle is used to examine the effect of interactions between particles and their environment. Random forces cause the thermalization of the particle. Reflection of a particle from a step barrier is analyzed. The problem of tunneling of the Brownian particle through a rectangular barrier is solved. Finally, a solution for a Brownian particle in a box is presented.