本文介绍了一种脉冲激光器远场能量密度测试系统。
This paper introduces a kind of measurement system of remote energy density of the pulsed laser.
本文首先以电磁场理论为基础,从场与介质相互作用的角度详细分析了介质中电磁场能量密度的物理意义。
This passage bases on electromagnetic field theories, analyzes the physical meanings of electromagnetic energy density from the standpoint of interactions between fields and medium.
我们此刻正在跨越密度相当高的能量场。
讨论了计算温度场的热源模式,给出以高斯函数分布和双椭圆体能量密度分布的两种热源模式。
Heat source models for calculating temperature field were discussed, Gauss distributed source model and double ellipsoid heat source model were established.
采用虚数场描述万有引力场,其场能密度是负实数,满足能量守恒定律。
The universal gravitation field is described by imaginary number in the paper. It's energy density is negative real number. And it accord with conservation of energy.
专注活动将导致场中特别的能量运动,可对提升者释放致密度有用。
Focus shall cause a particular energy movement in the field that can be useful for releasing density as an ascending being.
还有计算了在弱场条件近似下引力驻波的能量密度,并给出曲率标量R和能量密度平面的数值计算。
Besides that, we presents the gravitational wave energy density under the weak field situation and gives the x - y plane numerical calculation to curvature scalar R and energy density .
还有计算了在弱场条件近似下引力驻波的能量密度,并给出曲率标量R和能量密度平面的数值计算。
Besides that, we presents the gravitational wave energy density under the weak field situation and gives the x - y plane numerical calculation to curvature scalar R and energy density .
应用推荐