1) scattering power matrix
散射功率矩阵
1.
The scattering power matrix of target is taken as the measurement item in this paper.
文中以目标散射功率矩阵为测量对象,通过设计极化处理方式,克服了目标运动带来的影响,分析和验证了测量误差的统计特性和测量性能。
2) Scattering matrix
散射矩阵
1.
Study on the scattering matrix of the recurrence spectra of H_2 molecules in magnetic field;
氢分子在磁场中回归谱的散射矩阵理论研究
2.
Numerical calculation of optical cross section and scattering matrix for soot aggregation particles;
烟尘簇团粒子光学截面和散射矩阵的数值计算
3.
The scattering matrix,Graves matrix and polarization characteristic vector of the false targets produced by the full polarization jammer are analysed.
对全极化有源假目标和雷达目标的分析结果表明,提出的欺骗干扰方法形成的假目标的散射矩阵、Graves功率矩阵以及极化特征描述子矢量等参数与雷达目标具有很强的相似性,它可以有效地干扰极化测量雷达。
3) scatter matrix
散射矩阵
1.
Hybrid antenna and beam forming based on scatter matrix;
混合天线及基于散射矩阵的波束形成
2.
The effect of defects in the potential wells on the resonant tunneling of the three_tile quasiperiodic superlattices has been investigated by the δ function potential model and scatter matrix method.
应用δ函数势模型和散射矩阵方法, 研究了势阱中的杂质对三元准周期超晶格电子隧穿性质的影响。
3.
In this paper the effect of the bias voltage on the resonant tunneling of high_energy electron in three_tile quasiperiodic superlattice is investigated by scatter matrix method with Airy function.
本文应用Airy函数和散射矩阵方法研究了外加偏压对三元准周期超晶格高能态电子隧穿性质的影响。
4) Stokes scattering matrix
Stokes散射矩阵
1.
Aiming at the Stokes scattering matrix of smoke particles,an experimental setup was designed and built with an electro-optic modulation,a quarter waveplate,polarizers and a lock-in amplifier.
针对火灾烟颗粒的Stokes散射矩阵,利用电光调制器、1/4波片、偏振片及锁相放大器等设计与搭建了火灾烟颗粒光散射实验平台;并基于该平台测量了棉绳阴燃、正庚烷明火及檀香阴燃生成的3种烟颗粒的Stokes散射矩阵中16个元素的角度分布。
5) scattering matrix method
散射矩阵法
1.
A new analytical technique for obtaining a complete set of reflection, absorption and transmission coefficients for a stratified plasma slab is presented and named as scattering matrix method (SMM).
给出了用于分析多层磁化等离子体介质板的电磁反射、吸收和传输系数的新技术———散射矩阵法(SMM)。
6) Sinctair scattering matrix
Sinclair散射矩阵
补充资料:散射
分子式:
CAS号:
性质:一个粒子(分子、原子、自由基或离子)从远处接近另一粒子,经相互作用又离去的过程称为碰撞,也称散射,是化学反应过程中最基本的微观现象。气溶胶内颗粒随气流运动时,尺寸较大的颗粒往往会偏离流体运动方向而和器(管)壁发生碰撞弹跳。在旋风分离器内,这种现象可使粗粒被夹带出来,反而分不干净。在管道输送中,这种现象有助于使粗粒悬浮在流体中而不致于沉积在管下部。
CAS号:
性质:一个粒子(分子、原子、自由基或离子)从远处接近另一粒子,经相互作用又离去的过程称为碰撞,也称散射,是化学反应过程中最基本的微观现象。气溶胶内颗粒随气流运动时,尺寸较大的颗粒往往会偏离流体运动方向而和器(管)壁发生碰撞弹跳。在旋风分离器内,这种现象可使粗粒被夹带出来,反而分不干净。在管道输送中,这种现象有助于使粗粒悬浮在流体中而不致于沉积在管下部。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条