光场均匀化,uniform illumination,在线英语词典,英文翻译,专业英语

1) uniform illumination

光场均匀化

2) light field

光场

Micro-mechanism interacting between high polymer and light field;

高聚物与光场相互作用的微观机制

A light field-based fast computation of digitally reconstructed radiographs;

一种基于光场的数字重建影像快速生成算法

Light Field-Based Rendering;

基于光场的渲染技术研究

3) photon field

光场

The N-th power H-squeezing effects of photon field for the photon-added two-mode squeezed vacuum state a+mb+m|ξ> were numerically studied.

结果表明:对于态,光场存在着N次方H压缩效应,而且对于高次方H压缩,在压缩参数较大时,随着场模上光子增加数的增大,N次方H压缩效应增强。

The K-th power H-squeezing properties of photon field for the two-mode squeezed vacuum state|ξ>=1coshr∑∞n=0(-e~(iθ)tanhr)~n|n,n> are numerically studied.

结果表明:当θ满足一定条件时,光场存在着K次方H压缩效应(K=1,2,3,4,5,…);但是,随着方次K的升高,K次方H压缩效应有所减弱。

H - squeezed effects of K - th power in the photon field under the dual mode squeezed vacuum |ξ〉=1/coshr sum from n=0 to ∞(-eiθ tanhr)n| n, n〉 are numerically studied.

数值计算的结果表明:对于双模压缩真空态,光场存在着K次方H压缩效应(K=1,2,3,4,5,Λ);但是,随着方次K的升高,K次方H压缩效应减弱。

4) Laser field

激光场

Influence of laser field on interactions between swift molecular ions and solids;

激光场对快速分子离子与固体相互作用的影响

Behaviour of He~+ ionic ionization in laser field;

激光场中He~+离子的电离行为

e-Ar scattering in laser field;

激光场中eAr的散射研究

5) strong laser field

强光场

Under the framework of nonlinear quantum field theory,we show the total Hamiltonian operator H tot for the interaction between an electron field and a photon field,and study the contribution of the nonlinear term A 2 in the strong laser field.

在非相对论量子场论框架下 ,给出电子场和光子场相互作用时整个系统的哈密顿量Htot,研究在强光场中非线性项即A2 项的作用。

6) Strong laser field

强激光场

The numerical solutions of the one dimensional model of strong laser field are calculated by using the Wronskian preserving and symplectic scheme.

提出辛算法是保Wronskian守恒的算法 ,把辛算法应用于强激光场一维模型的计算中。

参考词条

混态光场光场探测双模光场标量光场五维光场结构光场光场位相光场测量垂直光场折射光场光场传播备忘录更新

补充资料：光化臭氧化

分子式：
CAS号：

性质：在光的作用下，有机化合物分子被臭氧氧化的反应。在紫外光照射下，臭氧分解为氧分子和氧原子：O₃+hv(λ=220~320mn)→O₂+O；O可引发一系列反应：O+H₂O→·OH+·OH；O+N₂O→NO+NO；CH₄+·OH→·CH₃+H₂O；进一步反应则得到甲醛等含氧化合物。其他有机化合物发生光化臭氧化反应，生成多种含氧化合物。

说明：补充资料仅用于学习参考，请勿用于其它任何用途。

首页 \| 翻译 \| 影视 \| 论坛 \| 索引光场力 4MFSS光场光场压缩光场分布单模光场热光场

1) uniform illumination 光场均匀化 2) light field 光场 1. Micro-mechanism interacting between high polymer and light field; 高聚物与光场相互作用的微观机制 2. A light field-based fast computation of digitally reconstructed radiographs; 一种基于光场的数字重建影像快速生成算法 3. Light Field-Based Rendering; 基于光场的渲染技术研究 3) photon field 光场 1. The N-th power H-squeezing effects of photon field for the photon-added two-mode squeezed vacuum state a+mb+m\|ξ> were numerically studied. 结果表明:对于态,光场存在着N次方H压缩效应,而且对于高次方H压缩,在压缩参数较大时,随着场模上光子增加数的增大,N次方H压缩效应增强。 2. The K-th power H-squeezing properties of photon field for the two-mode squeezed vacuum state\|ξ>=1coshr∑∞n=0(-e~(iθ)tanhr)~n\|n,n> are numerically studied. 结果表明:当θ满足一定条件时,光场存在着K次方H压缩效应(K=1,2,3,4,5,…);但是,随着方次K的升高,K次方H压缩效应有所减弱。 3. H - squeezed effects of K - th power in the photon field under the dual mode squeezed vacuum \|ξ〉=1/coshr sum from n=0 to ∞(-eiθ tanhr)n\| n, n〉 are numerically studied. 数值计算的结果表明:对于双模压缩真空态,光场存在着K次方H压缩效应(K=1,2,3,4,5,Λ);但是,随着方次K的升高,K次方H压缩效应减弱。 4) Laser field 激光场 1. Influence of laser field on interactions between swift molecular ions and solids; 激光场对快速分子离子与固体相互作用的影响 2. Behaviour of He~+ ionic ionization in laser field; 激光场中He~+离子的电离行为 3. e-Ar scattering in laser field; 激光场中eAr的散射研究 5) strong laser field 强光场 1. Under the framework of nonlinear quantum field theory,we show the total Hamiltonian operator H tot for the interaction between an electron field and a photon field,and study the contribution of the nonlinear term A 2 in the strong laser field. 在非相对论量子场论框架下 ,给出电子场和光子场相互作用时整个系统的哈密顿量Htot,研究在强光场中非线性项即A2 项的作用。 6) Strong laser field 强激光场 1. The numerical solutions of the one dimensional model of strong laser field are calculated by using the Wronskian preserving and symplectic scheme. 提出辛算法是保Wronskian守恒的算法 ,把辛算法应用于强激光场一维模型的计算中。参考词条混态光场光场探测双模光场标量光场五维光场结构光场光场位相光场测量垂直光场折射光场光场传播备忘录更新补充资料：光化臭氧化分子式： CAS号：性质：在光的作用下，有机化合物分子被臭氧氧化的反应。在紫外光照射下，臭氧分解为氧分子和氧原子：O₃+hv(λ=220~320mn)→O₂+O；O可引发一系列反应：O+H₂O→·OH+·OH；O+N₂O→NO+NO；CH₄+·OH→·CH₃+H₂O；进一步反应则得到甲醛等含氧化合物。其他有机化合物发生光化臭氧化反应，生成多种含氧化合物。说明：补充资料仅用于学习参考，请勿用于其它任何用途。
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