散射截面

Al2O3/MgO/C复合微粒子光学散射截面的计算

Calculations of optical scattering cross section for composion a1_2o_3 / mgo / c microscopic particles

文中提出将Raman频移、线宽、积分和峰值Raman散射截面、Raman增益系数作为评价材料的参数。

Raman frequency shift , line width , integral and peak Raman scattering cross section and Raman gain coefficient are proposed as the parameters to evaluate Raman materials .

P－D背散射截面及质子在固体中的多次散射

P-D back-scattering cross sections and the multi-scattering of protons in solid

低能电子与N2分子振动共振激发散射截面的收敛性研究

Convergence Study of Cross Sections for Vibrational Excitations in Low-energy-electron and N_2 Molecule Scattering

X射线在Au等离子体中的散射截面测量

The Measurement of X-ray Scattering Cross Sections from Laser-generated Plasma

超声速X形鸭翼-弹身组合体涡迹发展涂层弹身雷达散射截面的计算

Vortex development on cruciform canard configurations at supersonic speeds RCS computation of the coated missile body

低重频PD雷达的临界散射截面计算方法

Calculation method of critical radar cross section of low pulse repetition frequency PD radar

涂敷薄RAM的平板和立方体的雷达散射截面

The RCS of plate and cube coated with thin RAM

采用SBR法研究飞机进气道的雷达散射截面

Research on RCS of airplane duct based on SBR method

采用弹跳射线法（SBR）对发动机进气道的雷达散射截面（RCS）进行了分析计算。

RCS of engine duct is calculated and analyzed using SBR method .

介绍了雷达目标散射截面（RCS-RadarCrossSection）的概念以及宽带目标RCS特性及预估的方法。

The paper introduce the concept of radar target cross section and broadband target RCS characteristics , RCS pre-estimating method .

Pb同位素分立能级参数及中子直接非弹散射截面

Parameters for the discrete energy levels of Pb isotopes and the neutron direct inelastic scattering cross sections

计算了元素Be、C、Al、Cu等的弹性散射截面，并与Screen-Rutherford截面进行比较。

The elastic scattering cross-sections of element Be , C , Al , Cu are calculated and compared to Rutherford cross - section .

减小军事目标的雷达散射截面（RadarCrossSection，RCS）是隐身技术当中最重要的手段之一。

Reducing the radar cross section ( RCS ) of military targets is one of the most important measures in Stealth Technology .

动量空间中能质子-~（12）C弹性散射截面和自旋量的研究

A study of the cross sections and the spin observables for proton - ~ ( 12 ) C elastic scattering in momentum space in the intermediate energy region

基于GPU的光线跟踪算法在雷达散射截面快速估算中的应用。

The application of ray tracing on GPU in rapid RCS Prediction .

慢电子与He和Ne原子弹性碰撞的极化作用及散射截面计算

Polarization effects and cross sections for low-energy electron elastic scattering from helium and neon atoms

雷达散射截面并行计算中的MPI实现技术研究

On MPI Implementation of Radar Cross Section Parallel Computation

本文利用物理光学和物理绕射理论计算飞机翼面的雷达散射截面（RCS）。

Physical optics and physical theory of diffraction is used to calculate radar cross-section of airfoils .

随着计算机进一步发展，科学计算可视化越来越受到重视；而适用于低频区RCS（雷达散射截面）计算的传统方法MOM（矩量法），也越来越显示其价值；

With the development of visualization in scientific computing , traditional MOM for low frequency RCS has been re evaluated .

应用时域有限差分方法（FDTD）分析涂敷了吸收材料的一种突防弹头的雷达散射截面（RCS）。

Using FDTD method , the RCS of a missile head coated with absorbing material is analyzed .

本文给出一种分形微带天线在天线雷达散射截面（RCS）减缩中应用的示例。

A fractal microstrip patch antenna is illustrated for antenna Radar Cross Section ( RCS ) reduction .

GRECO方法是快速计算飞航导弹雷达散射截面（RCS）的有效手段。

GRECO is a fast RCS prediction method of aerodynamic missile .

慢电子与Kr原子弹性散射截面的计算

Calculation of cross sections for low-energy electron elastic scattering by Kr atoms

对此类结构的雷达散射截面（RCS）进行预估和减缩能够有效的提高飞行器的隐身能力。

Calculating and reducing radar cross scattering of this kind of structure can improve stealth capability of aircraft .

本文将分形应用于天线的雷达散射截面（RCS）减缩中。

Fractal is used in the radar cross section ( RCS ) reduction of antenna in this paper .

金属目标表面涂覆吸波材料可以有效地抑制雷达散射截面（RCS）。

Radar Cross Section ( RCS ) is efficiently controlled by coating material ( RAM ) for metal objects .

目标的雷达散射截面（RCS）与照射频率和照射角有关。

The radar cross section ( RCS ) of a target is dependent on frequency as well as observation angle .

根据星载合成孔径雷达（SAR）浅海水下地形和水深成像机理，建立了浅海水下地形和水深雷达后向散射截面仿真模型。

A simulation model for the radar backscattering cross section of the sea surface has been developed based on the radar imaging mechanism of underwater bottom topography .

核介质中核子－核子散射截面的BHF微观计算

Microscopic Calculation of Nucleon-Nucleon Cross Section in Nuclear Medium Within BHF Approach