We solve the general problem of mixing of electromagnetic and scalar or pseudoscalar fields coupled by axion-type interactions ${\cal L}_{int} =g_{\phi} \phi \epsilon_{\mu \nu \a \b}F^{\mu \nu}F^{\a \b} $. The problem depends on several dimensionful scales, including the magnitude and direction of background magnetic field, the pseudoscalar mass, plasma frequency, propagation frequency, wave number, and finally the pseudoscalar coupling. We apply the results to the first consistent calculations of the mixing of light propagating in a background magnetic field of varying direction, which shows a great variety of fascinating resonant and polarization effects.
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机译:我们解决了由轴力类型的相互作用耦合的电磁场和标量场或伪标量场混合的一般问题$ {\ cal L} _ {int} = g _ {\ phi} \ phi \ epsilon _ {\ mu \ nu \ a \ b} F ^ {\ mu \ nu} F ^ {\ a \ b} $。问题取决于几个尺度,包括背景磁场的大小和方向,伪标量,等离子体频率,传播频率,波数,最后是伪标量耦合。我们将结果应用于在变化方向的背景磁场中传播的光的混合的第一个一致的计算,这显示了各种各样令人着迷的共振和极化效应。
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机译:用等离子体约束实现重力场的动态控制热核聚变(TLTS)方法,通过热辐射等离子体绝缘的壁反应堆防止中子辐射并节省磁场和等离子体的混合,使用旋转磁场的异步磁惯性约束反应堆(AMITYAR和HFM)为实施该方法,在该反应器中点燃热核反应的方法,爆炸式等离子发生器(VIP)的实施方法,以及具有HFM的特立普安瓿,以实现D + T反应和具有超高温热度的HFM D +3НЕ和1Н+11В的高温反应
