1) grating eliminated no-nosense observation of ultrafast laser light E-fields
单发频率分辨光学开关
1.
In the pulse measurement system based on grating eliminated no-nosense observation of ultrafast laser light E-fields,the time delay between beams that were split and crossed by Fresnel biprism was theoretically derived.
基于单发频率分辨光学开关法的飞秒脉冲测量系统,理论推导光束经菲涅尔双棱镜分光与聚合产生的时间延迟,得到菲涅尔双棱镜底角、折射率和脉冲光斑半径的关系。
2) frequency-resolved optical gating
频率分辨光学开关法
1.
Measurement of ultrashort laser pulses using frequency-resolved optical gating;
超短光脉冲的频率分辨光学开关法测量研究
2.
The basic concept underlying the frequency-resolved optical gating(FROG)pulse characterization technique is reviewed,and the influence of mode-size effect and nonlinear effect of second-harmonic generation medium on femtosecond pulse measurement are discussed in detail.
阐述了频率分辨光学开关法测量飞秒脉冲的原理,详细分析了模式尺寸效应和非线性效应对飞秒脉冲测量的影响。
3) frequency-resolved optical gating
频率分辨光学门
1.
The second-harmonic generation frequency-resolved optical gating(SHG-FROG) is a new measurement technique of short optical pulses developed in recent years.
二次谐波频率分辨光学门(SHG-FROG)是能够准确测量短脉冲多项特性参量的新技术。
4) optical resolution
光学分辨率
1.
It s shown that the scanning frequency,scan angle and the thickness of scanning mirror must be optimized and balanced in order to achieve the diffraction-limited optical resolution,when the mirror size of MEMS scanning micro-mirror is given.
扭转镜面的动态形变是影响显示成像用MEMS扫描微镜光学分辨率的主导因素,研究了高速转动的MEMS扫描微镜的动态形变特性,得到了相关有用的结论。
5) laser frequency switch
激光频率开关<光>
6) OFDM Optical Frequency Division Multiplexing
光学频率分开多路复用
补充资料:高分辨电子显微镜(见高分辨电子显微术)
高分辨电子显微镜(见高分辨电子显微术)
high resolution electron microscope
高分辨电子显微镜high resolution eleetronmieroseope见高分辫电子显微术。
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