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详细讨论了波源和观察者在垂直二者连线方向上运动时是否会产生多普勒效应,波源和观察者之间的相对位置是否会影响多普勒效应,火车经过观察者时汽笛的音调是否是先越来越高后越来越低等三个容易对多普勒效应产生误解的地方,并给予澄清.特别地,推导出了波源和观察者沿任意方向运动时的精确的多普勒效应公式,证明了多普勒效应与波源和观察者之间的相对位置无关. 相似文献
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Exact solutions of (3+1)-dimensional nonlinear incompressible non-hydrostatic Boussinesq equations 下载免费PDF全文
The symmetries and the exact solutions of the (3+1)-dimensional nonlinear incompressible non-hydrostatic Boussinesq (INHB) equations, which describe atmospheric gravity waves, are studied in this paper. The calculation on symmetry shows that the equations are invariant under the Galilean transformations, the scaling transformations, and the space-time translations. Three types of symmetry reduction equations and similar solutions for the (3+1)-dimensional INHB equations are proposed. Traveling and non-traveling wave solutions of the INHB equations are demonstrated. The evolutions of the wind velocities in latitudinal, longitudinal, and vertical directions with space-time are demonstrated. The periodicity and the atmosphere viscosity are displayed in the (3+1)-dimensional INHB system. 相似文献
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Application of higher-order KdV——mKdV model with higher-degree nonlinear terms to gravity waves in atmosphere 下载免费PDF全文
Higher-order Korteweg-de Vries (KdV)-modified KdV (mKdV) equations
with a higher-degree of nonlinear terms are derived from a simple
incompressible non-hydrostatic Boussinesq equation set in atmosphere
and are used to investigate gravity waves in atmosphere. By taking
advantage of the auxiliary nonlinear ordinary differential equation,
periodic wave and solitary wave solutions of the fifth-order
KdV--mKdV models with higher-degree nonlinear terms are obtained
under some constraint conditions. The analysis shows that the
propagation and the periodic structures of gravity waves depend on
the properties of the slope of line of constant phase and atmospheric
stability. The Jacobi elliptic function wave and solitary wave
solutions with slowly varying amplitude are transformed into
triangular waves with the abruptly varying amplitude and breaking
gravity waves under the effect of atmospheric instability. 相似文献
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Based on the quantum Vlasov equation, the effect of frequency chirp on electron-positron pair production is investigated. The cycle parameter, which characterizes the laser field cycle degree within the pulse, is also considered. In both supercycle and subcycle laser pulses the frequency chirp can greatly enhance the momentum distribution function of created pairs and the pair number density. The pair number density created by a supercycle laser pulse is larger than that by a subcycle pulse under the same laser frequency and chirping. There exists an optimal cycle parameter corresponding to the maximum value of the created pair number density for different chirp rates. It is found that the pair number density is sensitive/insensitive to chirping rate when the cycle parameter lies below/above the optimal one. 相似文献
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The electronic transverse transport of Lorentz plasma with collision and magnetic field effects is studied by solving the Boltzmann equation for different electron density distributions. For the Maxwellian distribution, it is shown that transport coefficients decrease as ? increases, ? is the ratio of an electron's magneto-cyclotron frequency to plasma collision frequency. It means that the electrons are possible to be highly collimated by a strong magnetic field. For the quasimonoenergetic distribution with different widths, it is found that the transport coefficients decrease greatly as εˉ decreases.In particular when the width approaches to zero the transverse transport coefficients are hardly affected by the magnetic field and the minimal one is obtained. Results imply that the strong magnetic field and quasi-monoenergetic distribution are both beneficial to reduce the electronic transverse transport. This study is also helpful to understand the relevant problems of plasma transport in the background of the inertial confinement fusion. 相似文献
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基于轴对称和热成风平衡系统,研究了柱坐标系中的线性涡旋动力学方程组的初值问题,分析了岛屿地形对极地低压和热带气旋类涡旋的影响,同时分析了感热和潜热,摩擦和地形在极地低压和热带气旋类涡旋的强度和结构演变中的作用.通过对地形影响下的流体运动的径向和法向速度,以及垂直速度和流体运动的不稳定增长率的分析指出,流动和地形的相互作用对极地低压和热带气旋类系统的强度和结构演变起着非常重要的作用. 在岛屿山脉地形的迎风坡上,地形强迫的径向入流气流和垂直上升运动有利于极地低压和热带气旋类涡旋的加强和发展,有利于加强流体的不稳定增长率.但是,在山脉地形的背风侧,地形强迫的径向入流气流和垂直下沉运动,有利于极地低压和热带气旋类涡旋的减弱和消亡,有利于减弱流体的不稳定增长率.同时,基于气象观测资料分析了2003年12月19日发生在日本海上的一次极地低压生消和演变过程,所得到的观测事实和理论分析具有较好的一致性,并在此基础上讨论了极地低压和台风涡旋,斜压背风涡旋和斜压锢囚涡旋的生消机制和演变特征的异同. 相似文献
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The Painleve integrability and exact solutions to a coupled nonlinear Schrodinger (CNLS) equation applied in atmospheric dynamics are discussed. Some parametric restrictions of the CNLS equation are given to pass the Painleve test. Twenty periodic cnoidal wave solutions are obtained by applying the rational expansions of fundamental Jacobi elliptic functions. The exact solutions to the CNLS equation are used to explain the generation and propagation of atmospheric gravity waves. 相似文献
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