isotropic scattering
英
美
网络 散射各向同性; 均向散射; 各向同性散射
双语例句
- In this paper, the multiple scattering effects of residual gas as isotropic disturbing forces, are introduced into the RMS envelope equation of cylindrically symmetric DC electron beams, so that the expression of emittance growth due to the scattering is obtained.
把残余气体散射作为一种各向同性微扰力引入轴对称直流带电粒子束的均方根包络方程,从中得到了气体散射作用导致束流发射度增长的表达式。 - The redistribution of radiative energy in the case of isotropic scattering is investigated, and the radiative transfer coefficient ( RTC) in an absorbing, emitting and isotropic scattering medium is derived.
考察了各向同性散射能量传递份额的再分配,导出了吸收、发射、各向同性散射介质的辐射传递系数。 - The distribution function is derived by isotropic scattering of light, and then gets the random variables in line with the distribution of each scattering.
对各向同性的光散射,导出了各分布函数,并在每次散射中得到符合分布的随机变量。 - The results show that relative temperature differences between the linearly anisotropic scattering and isotropic scattering media are approximately proportional to the scattering asymmetry parameter.
结果表明,各向异性散射与各向同性散射介质间的相对温度差异与散射不对称参数近似成正比。 - Taking isotropic scattering as a reference, effects of emitting characteristics for both sides of opaque surface and linearly anisotropic scattering phase functions on transient temperature distribution were analyzed by calculation.
以各向同性散射情况比较,研究不透明边界两侧发射特性和线性散射相函数对瞬态温度分布的影响。 - The analysis of scattering problems for an anisotropic medium object are complicated, because the constitutive parameters, such as dielectric constant, permeability, conductivity etc. become tensors instead of scalars in isotropic media. We apply the FDTD method to treat the scattering for anisotropic media.
在各向同性介质中介质参数是标量,而各向异性介质中本构参数变为张量,从麦克斯维方程出发应用FDTD方法求解各向异性介质散射问题时离散方程变得复杂。 - A method of matrix relations for total radiant exchange areas in isotropic scattering media;
散射介质中辐射全交换面积的求解方法; - Using Hybrid Method to Analyze Radiative Heat Transfer of Isotropic Scattering Media
混合模拟方法分析散射介质的辐射换热 - Hence, high frequency S coda wave is not traditional superposition of scattering wave from backward or isotropic scattering process, but is originated from the transfer energy from the multiple forward scattering process between scatters and S wave.
因此,高频S尾波并不是传统意义上的各向同性散射过程、或者后散射过程引起的散射波的叠加,而是源于S波与散射体多次前散射过程中的能量转移。 - Fabrication of the isotropic fiber probe and detection of scattering light in medium
各向同性光纤探头的制作及介质中散射光的探测