等离子体波背景下的光子Berry相位

利用光学度规将强激光脉冲激发的电子等离子体波描述为有效几何背景.借助于广义相对论中弯曲时空下的Maxwell方程组得到了探针光子在等离子体中电子等离子体波背景下(被处理为有效度规)所满足的运动方程及光子的Hamilton表达式.导出了电子等离子体波对光子Berry相位贡献的解析表达式并且对光子在真空中Berry相位的修正做了数值估算. 关键词： 电子等离子体波 等离子体 Berry相位     

量子等离子体中波的色散关系以及朗道阻尼

利用动理学理论研究量子等离子体中波的色散关系和电子朗道阻尼.从电子的量子流体动力学方程和动理学描述下的光子运动方程出发,研究量子效应对光子朗道阻尼的修正.研究发现量子效应只对纵波模式,即电子等离子体波的色散关系有修正,对横向电磁波的色散关系没有影响.量子效应减小了朗道阻尼,起着朗道增长的作用. 关键词： 量子等离子体 朗道阻尼 电子等离子体波 色散关系     

强激光短脉冲的引力效应

研究了强激光短脉冲产生的引力场中氢原子能级的移动.指出在目前高功率激光脉冲条件下，高激发态氢原子的能级移动大小将达到可观察值. 关键词：     

PHOTON ACCELERATION DRIVEN BY AN INTENSE LASER PULSE

Interaction of a laser field with a plasma wave is studied by metric optics. Analysis shows that the frequency upshifting of the laser pulse results from the plasma density gradient. A laser beam can be thought of as a packet of photons moving in a plasma and thus the laser frequency upshifting is equivalent to photon acceleration. Examination of the three-dimensional motion equations shows that a laser beam diffraction occurs in the presence of a radial variation of the plasma density. It is argued that the focusing mechanism originating from the plasma wave can curb laser diffraction so that photons may be trapped in the plasma wave and accelerated continuously.     

基于激光等离子体的光子加速

利用一维动量方程、连续性方程和泊松方程,导出了由于短脉冲激光入射到稀薄等离子体中 而引起的电子密度扰动,它与入射激光密切相关.而密度扰动的传播形成电子等离子体波(尾 波场).利用光学度规的方法,研究了与驱动激光脉冲入射相距一定空间距离入射的尾随激光 脉冲由于尾波场的作用引起的光子频率的增大.结果表明,在一定条件下,入射到尾波场中 的光子可以从尾波场中获得能量,在光子总数不变时,光子频率会增大,光子获得加速. 关键词： 电子密度扰动 光学度规 光子加速     

等离子体密度对多光子电离的影响

利用“光学度规”的方法研究了等离子体中的多光子电离,获得了“弯曲时空”中的量子Volkov态.应用量子电动力学的形式散射理论得出了多光子电离的散射截面.阐述了等离子体密度对发生在其中的多光子电离的“抑制”作用 关键词： 多光子电离 激光等离子体     

Modification of gravitational redshift of x-ray burst produced by pulsar surface magnetoplasma

In this paper, the propagation of x-ray bursts in the magnetoplasma of pulsar magnetosphere is discussed. The electromagnetic interaction between x-ray bursts and magnetoplasma is described as some geometry. The electromagnetic effects of surface superstrong magnetic field and dynamic effects of outflowing magnetoplasma of pulsars are treated as an optical metric. The Gordon metric is introduced to represent the gravitational metric and optical metric. So the propagation of x-ray bursts in magnetoplasma of pulsars can be described as x-ray bursts transmitting in an effective space characterized by Gordon metric. The modification of gravitational redshift, attributed to the flowing magnetoplasma of pulsars, is obtained and it is shown that the modification is of redshift and can reach the same magnitude as the gravitational redshift for ordinary pulsars.     

Euclidean non-vacuum wormholes in Brans－Dicke theory

The Brans－Dicke theory is investigated in which the Pauli metric is identified to be a physical spacetime metric. The solutions of a wormhole are obtained in Brans－Dicke theory with a relativistic radiation field for ω>-3/2. However, it is found that one cannot construct a wormhole in the presence of a 3-form axion field.