激光光谱学

采用可独立调谐的单色、双色以及三色飞秒激光光谱学、能量传递动力学和瞬态荧光动力学，研究了PSⅡ能量传递及转化的微观机理。

By using independent tuning single color , two color or even three color femtosecond laser spectroscopy , energy transfer dynamics and transient fluorescence dynamics , the micromechanism of PS ⅱ energy transfer and transform was studied .

激光光谱学的新分支&瞬态相干光谱学

A New Branch of Laser Spectroscopy & Coherent Transient Spectroscopy

用共线快离子束-激光光谱学研究NdⅡ能级的超精细结构

Hyperfine Structure of Nd ⅱ Using Collinear Fast-Ion-Beam-Laser Spectroscopy

J型聚集态的激光光谱学实验与理论研究

Experimental and Theoretical Study of J-Aggregate State

应用于激光光谱学中的短脉冲光峰功率的测量

Measurement of peak power of short light pulses applied in laser spectroscopy

超快速激光光谱学技术在晶态半导体低维材料中的应用

Application of ultrafast laser spectroscopy to crystalline semiconductor low & dimension materials

激光光谱学的新领域&双光子光谱学

A New Domain of Laser Spectroscopy & Two-photon Spectroscopy

导数光谱技术在激光光谱学中的应用

New Applications of Laser Difference Spectrum in Laser Spectroscopy

调节发动机、电视机、灯光.可调谐二极管激光光谱学

Readjust the engine tuning , TV set , lighting tunable diode laser spectroscopy

本文评述超声分子束激光光谱学的进展。

In this article the progress in laser spectroscopy of supersonic molecular beams is discussed .

超声分子束激光光谱学

Laser Spectroscopy In Supersonic Molecular Beams

应用激光光谱学的发展现状

Present Status of Applied Laser Spectroscopy

高灵敏度激光光谱学高等教育水平，比如大学、高等学院或酒店学校等。

High sensitive laser spectroscopy Undergraduate degree from an accredited university , college or hotel school .

首先叙述超声分子束激光光谱学的特点及其实验技术；

First the features and the experimental techniques of laser spectroscopy of supersonic molecular beams are described .

红外激光光谱学的进展

Advances in Infrared Laser Spectroscopy

本文重点介绍了激光光谱学在癌症和动脉粥样硬化斑块诊断研究方面的应用。

This paper focus on introducing application of laser spectroscopy in the cancer and arteriosclerosis plaque diagnosis .

高灵敏度激光光谱学

High sensitive laser spectroscopy

高分辨率亚多普勒激光光谱学

High-Resolution Sub-Doppler Laser Spectroscopy

固体的激光光谱学

Laser spectroscopy of solid

无多普勒激光光谱学

Doppler free laser spectroscopy

现在她拟在[红外学光谱学]，特别是[激光光谱学]方面作进一步的研究。

Now intends to engage in further study of [ infrared spectroscopy , and laser spectroscopy ] in particular .

本文介绍了安徽光机所激光光谱学开放研究实验室的交叉分子束装置。

The crossed molecular beam apparatus in Laser Spectroscopy Laboratory , Anhui Institute of Optics and Fine Mechanics , is introduced .

报道了应用于激光光谱学中直接测量短脉冲光峰值光功率的双通道测量系统。

A dual channel measurement system applied in laser spectroscopy for direct measurement of peak power of short light pulses is reported .

光学高次谐波的产生将频梳技术扩展到极端紫外，开启了精密激光光谱学新的光谱领域。

Optical high harmonic generation is extending frequency comb techniques into the extreme ultraviolet , opening a new spectral territory to precision laser spectroscopy .

本文介绍了流动余辉技术及其特点。详细描述了在中国科学院安徽光机所激光光谱学开放研究实验室运行的流动余辉实验装置。

Tn this paper , we introduce the discharge-flowing afterglow technique and its characters , and describe in detail the discharge-flowing afterglow experimental apparatus in our laboratory .

随着激光器的问世，激光光谱学逐渐发展成为一门成熟的学科，这给我们测量精确的光谱数据提供了可靠的技术支持。

With the advent of laser , laser spectroscopy has become an important subject and it can provide reliable technical support for us to measure the exact spectra data .

激光光谱学是你们作业中的重点，它能非常精确地测量光谱中哪一部分被不同的物质吸收。

Now , Laser Spectroscopy , which is the focus of your assignment , works by measuring very precisely what parts of the spectrum are absorbed by different substances .

激光光谱学、激光光镊、激光扫描显微镜、激光核磁共振仪、激光镀膜在材料学科中有重要意义。

T Laser spectroscopy , laser tweezers , laser scanning microscope , laser nuclear-magnetic resonator and laser vapour atom deposition film are possessed of important significance in materials science .

报道了近年来半导体/介质纳米颗粒镶嵌材料中超快过程的激光光谱学的主要测量方法和技术、探测结果、机理分析和我们的一些见解。

In this paper , the recent advance on ultrafast laser spectroscopy with methods , techniques and mechanism analyses for the dynamics in semiconductor nano granular embedded in medium marix is reviewed .

利用共线快离子束激光光谱学方法测量了正一价镨离子波长581.69nm谱线的超精细结构光谱，得到了超精细相互作用常数；

The hyperfine structure spectrum in 581.69 nm line of 141 Pr + was measured by collinear fast ion beam laser spectroscopy and the hyperfine coupling constants of the involved levels were deduced .