1) optical depth
光学深度
1.
Using the accurate expression of the Voigt profile we obtained,a method for the calculation of the optical depth of laser produced plasma is given out.
利用得到的精确佛克脱线型的表达式,给出了计算佛克脱线型激光等离子体的光学深度的方法。
2) high optic depth
高光学深度
1.
Linear approximation of Beer-Lambert law is no longer accepted under high optic depth, so that the popular 2nd harmonic detection in wavelength modulation spectroscopy ( WMS) becomes invalid.
由于在高光学深度下,比尔朗伯特(Beer-Lambert)定律的线性近似不再成立,波长调制光谱(WMS)中常用的偶次谐波探测失效。
3) Optical penetration depth
光学穿透深度
1.
The optical penetration depths and light attenuation characteristics for normal and adenomatous human colon mucosa/submucosa and normal and adenomatous human colon muscle layer/chorion tissues at 630 nm,680 nm,720 nm,780 nm,810 nm,850 nm and 890 nm wavelengths of Ti∶sapphire laser were studied,a double-integrating-spheres system and inverse adding-doubling(IAD) method were used in this experiment.
利用反向倍增法(IAD),采用双积分球系统,研究了人正常结肠和结肠腺癌粘膜/粘膜下层以及正常结肠和结肠腺癌肌层/浆膜组织对630 nm,680 nm,720 nm,780 nm,810 nm,850 nm和890 nm的钛宝石激光的光学穿透深度和光衰减特性。
4) optical concealment depth
光学隐蔽深度
1.
Because of the huge difference of optical characteristic between underwater target and Scchi-Disk,it was unscientific and inaccurate to estimate the optical concealment depth(OCD) of underwater target using Scchi-Disk depth(SD).
针对用透明度盘深度(SD)估计水下目标的光学隐蔽深度(OCD)的方法缺乏科学性与准确性,提出了利用水色卫星遥感数据获取水下目标光学隐蔽深度的方法。
5) photolytic depth
光解深度
1.
Study on photolytic depth of imazapyr in four representative soils of Zhejiang province;
咪唑烟酸在浙江4种代表性土壤中的光解深度研究
6) deep lithography
深度光刻
1.
Application of DUV deep lithography in LIGA process;
深紫外深度光刻蚀在LIGA工艺中的应用
补充资料:BCS穿透深度(BCSpenetrationdepth)
BCS穿透深度(BCSpenetrationdepth)
对纯超导体,由BCS电流方程,在伦敦极限下(`\xi_0\lt\lt\lambda`或$l\lt\lt\xi_0$)的穿透深度与伦敦穿透深度λL(T)相符。对非纯超导体(含杂质),在伦敦极限下为
$\lambda(T)=\lambda_L(T)(1 \xi_0//l)^{1/2}$
一般地,λL(T)由经验公式表示其与温度T的关系(见“伦敦穿透深度”)。在皮帕德极限下($\xi_0\gt\gt\lambda$或$\xi_0\lt\ltl$),ξp=ξ0,则给出为
$\lambda(T)=\frac{8}{9}\lambda_L(T)[\frac{sqrt3\xi_0}{2\pi\lambda_L(T)}]^{1/3}$
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