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Chin. Phys. B  
  Chin. Phys. B--1997, Vol.6, No.11
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GENERAL

NONLINEAR WAVES PROPAGATING IN AN INHOMOGENEOUS BLOOD VESSEL

DUAN WEN-SHAN, WANG BEN-REN, WEI RONG-JUE
Chin. Phys. B 1997, 6 (11): 801 ;  doi: 10.1088/1004-423X/6/11/001
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A model for describing blood pressure propagation wave in artery is proposed. Considering blood viscosity, slowly varying arterial parameters and arterial bifurcations, we obtain the dynamical equation of blood flow. We show that the blood viscosity attenuate the nonlinear blood wave amplitude mainly in small artery. On the other hand, the variation of arterial parameters (such as radius and Young's modulus) amplify the amplitude of the nonlinear blood wave in large arteries. We also investigate how the nonlinear blood wave (or a soliton) is reflected and transmitted at the arterial bifurcations. It can be concluded that the parameters at the bifurcation determine whether there is substantial reflection or not, but the transmission in each bifurcation is approximately the same as the incident wave.

ALTERNATIVE APPROACH TO THE PHASE OPERATOR AND ITS PROPERTIES

DUAN LU-MING, GUO GUANG-CAN
Chin. Phys. B 1997, 6 (11): 811 ;  doi: 10.1088/1004-423X/6/11/002
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By introducing a series of mathematical symbols and phase quantization condition, we give a new approach to the phase operator, which is defined directly in the conventionally-used infinite-dimensional state spaces. Properties of the phase operator and its expressions in some widely-used representations are given. As an example, phase properties of coherent states are analyzed based on this definition.

A GROUP OF EXACT (3+1) DIMENSIONAL CYLINDRICALLY SYMMETRIC WAVE SOLUTIONS TO THE EINSTEIN GRAVITATIONAL FIELD EQUATION

TANG MENG-XI, AU CHI
Chin. Phys. B 1997, 6 (11): 822 ;  doi: 10.1088/1004-423X/6/11/003
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Starting with the diagonal spacetime metric tensor, the Einstein gravitational field equation is solved, and a set of exact (3+1) dimensional cylindrically symmetric wave solutions with two arbitrary functions are found. In these solutions all nonvanishing components of spacetime metric tensor are varying with the same propagating factor (ct-z) while the waves are travelling along z axis. The physical picture and the condition of positive energy density of the wave solutions are discussed.

STRICT DERIVATION OF MEAN FIELD EQUATION FOR ONE-DIMENSIONAL TRAFFIC FLOW MODEL

WANG LEI, WANG BING-HONG, HUI PAK-MING
Chin. Phys. B 1997, 6 (11): 829 ;  doi: 10.1088/1004-423X/6/11/004
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A new analysis method is presented for the study of Fukui-Ishibashi deterministic one-dimensional traffic flow cellular automaton model of high speed car on highway. By using this method, the exact mean field equation describing the fundamental diagram curve of average traffic speed versus the car density on highway can be derived strictly.
ATOMIC AND MOLECULAR PHYSICS

METHOD FOR THE STUDY OF FAST VIBRATIONAL RELAXATION OF MOLECULES USING SPECTROPHONE

V.A.KAPITANOV, B.A.TIKHOMIROV, O.V.TIKHOMIROVA
Chin. Phys. B 1997, 6 (11): 837 ;  doi: 10.1088/1004-423X/6/11/005
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A technique for measuring the vibration translational relaxation time of molecular gases using the spectrophone is described. The technique is based on the measurement of the phase of natural oscillations of the microphone membrane as a function of pressure of the gas under study. These oscillations manifest themselves in a shape of the optoacoustic (OA) signal at low gas pressure in the OA cell when the absorbing molecules are excited by short laser pulses. As an example the results on the relaxation time of the v1+3v3 state of H2O molecule in H2O-H2O and H2O-air collisions obtained using the OA cell of various sizes are presented.

IONIZATION POTENTIALS OF NICKEL CLUSTERS

LUO CHENG-LIN
Chin. Phys. B 1997, 6 (11): 841 ;  doi: 10.1088/1004-423X/6/11/006
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The mean coordination numbers of some nickel clusters have been calculated for some proposed geometric structures for them, and their ionization potentials are obtained using an effective coordination-number model. It is shown that the mean effective-coordination number of all atoms of a cluster should be taken as a parameter to describe the d-band width of the cluster instead of mean effective coordination number of surface atoms.
CONDENSED MATTER: ELECTRONIC STRUCTURE, ELECTRICAL, MAGNETIC, AND OPTICAL PROPERTIES

EFFECTIVE-MASS THEORY FOR InAs/GaAs STRAINED SUPERLATTICES

LI SHU-SHEN, XIA JIAN-BAI
Chin. Phys. B 1997, 6 (11): 848 ;  doi: 10.1088/1004-423X/6/11/007
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By using the recently developed exact effective-mass envelope function theory, the electronic structures of InAs/GaAs strained superlattices grown on GaAs (100) oriented substrates are studied. The electron and hole subband structures, distribution of electrons and holes along the growth direction, optical transition matrix elements, exciton states, and absorption spectra are calculated. In our calculations, the effects due to the different effective masses of electrons and holes in different materials and the strain are included. Our theoretical results are in agreement with the available experimental data.

OPTIMUM DESCRIPTION FOR THE GRAIN ALIGNMENT IN PERMANENT MAGNETIC MATERIALS

GAO RU-WEI, ZHANG DE-HENG, ZHANG JIAN-CHENG, LI HUA, WANG YI, MENG XIAN-HONG
Chin. Phys. B 1997, 6 (11): 861 ;  doi: 10.1088/1004-423X/6/11/008
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Two types of Gaussian function for describing the grain a lignment in NdFeB permanent magnetic materials are introduced and compared in this paper. The results show that when the degree of grain alignment is avorable, the theoretical results based on the “θ-type”Gaussian function are in a greement with those based on the “tan θ-type”Gaussian function in the var iation tendency of the distribution coefficients and the distribution curves. When the degree of grain alignment is not good, the two descriptions have a large difference from each other. The theoretical results based on the “tan θ-type” Gaussian function are in good agreement with the experiments in the grain alignment dependence of the coercivity. However, the obtained results based on the “θ-type”Gaussian function are not in agreement with the experiments. The“tan θ-type”Gaussian function can be used to describe the grain alignment of various degrees and is consistent with the common Gaussian function taking x as a variable. So it is an optimum function for describing the grain alignment.
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