Laser-induced collisional energy transfer in Sr-Li system

A four-state model considering the relative velocity distribution function for calculating the cross section of laserinduced collisional energy transfer in a Sr Li system is presented and profiles of laser-induced collision cross section are obtained. The resulting spectra obtained from different in...

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Published in:Chinese physics B 2012-08, Vol.21 (8), p.167-172, Article 083202
Main Author: 陈德应 鲁振中 樊荣伟 夏元钦 周志刚 季一勤
Format: Article
Language:English
Subjects:
Asymmetry
Cross sections
Cross sections (physics)
Energy transfer
FWHM
Lasers
Mathematical models
Saturation
Spectra
Strontium
个人资料
光场强度
激光感生碰撞能量转移
目标状态
碰撞截面
系统
速度分布函数
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cited_by cdi_FETCH-LOGICAL-c312t-5d17fef7f32f2da10c9dbe1fe2356b4d12d92811d2177847fb1b0efdee927f363
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creator 陈德应 鲁振中 樊荣伟 夏元钦 周志刚 季一勤
description A four-state model considering the relative velocity distribution function for calculating the cross section of laserinduced collisional energy transfer in a Sr Li system is presented and profiles of laser-induced collision cross section are obtained. The resulting spectra obtained from different intermediate states are strongly asymmetrical in an opposite asymmetry. Both of the two intermediate states have contributions to the final state, and none of the intermediate states should be neglected. The peak of the laser-induced collisional energy transfer (LICET) profile shifts toward the red and the FWHM becomes narrower obviously with laser field intensity increasing. A cross section of 1.2 × 10^-12 cm2 at a laser field intensity of 2.17 ×107 V/m is obtained, which indicates that this collision process can be an effective way to transfer energy selectively from a storage state to a target state. The existence of saturation for cross section with the increase of the laser intensity shows that the high-intensity redistribution of transition probabilities is an important feature of this process, which is not accounted for in a two-state treatment.
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source Institute of Physics:Jisc Collections:IOP Publishing Read and Publish 2024-2025 (Reading List)
subjects Asymmetry
Cross sections
Cross sections (physics)
Energy transfer
FWHM
Lasers
Mathematical models
Saturation
Spectra
Strontium
个人资料
光场强度
激光感生碰撞能量转移
目标状态
碰撞截面
系统
速度分布函数
title Laser-induced collisional energy transfer in Sr-Li system
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