强激光与粒子束
彊激光與粒子束
강격광여입자속
HIGH POWER LASER AND PARTICLEBEAMS
2012年
6期
1357-1364
,共8页
高斯脉冲%线宽增强因子%色散%频率啁啾
高斯脈遲%線寬增彊因子%色散%頻率啁啾
고사맥충%선관증강인자%색산%빈솔조추
Gaussian pulse%linewidth enhancement factor%pulse broadening factor%frequency chirp
采用解析方法,在考虑材料损耗和色散的情况下,详细研究了无啁啾高斯脉冲和啁啾高斯脉冲在半导体光放大器中传输的物理过程,分析了强度增益、脉冲宽度和频率啁嗽与线宽增强因子、色散系数、小信号增益特征参数及初始啁啾之间的关系.结果表明:当输入变换极限的高斯脉冲时,色散会引起增益压缩,脉冲展宽和频率啁啾;同样情况下,线宽增强因子越大,脉宽加宽越明显,输出脉冲啁嗽越大,且随着线宽增强因子的增大,输出脉冲啁啾极大值向特征参数值较小的一边移动.当输入啁啾高斯脉冲时,初始脉冲啁嗽越大,增益压缩越明显,啁啾系数为正时,脉冲单纯展宽,输出啁啾随特征参数的增大而逐渐减小,啁啾系数为负时,初始啁啾与群速度色散导致的啁啾相互竞争,致使脉冲先被压缩后被展宽;脉冲最窄处对应的特征参数随线宽增强因子的增大而先增大后减小,输出啁啾随特征参数的增大而经历振荡后趋于平稳.
採用解析方法,在攷慮材料損耗和色散的情況下,詳細研究瞭無啁啾高斯脈遲和啁啾高斯脈遲在半導體光放大器中傳輸的物理過程,分析瞭彊度增益、脈遲寬度和頻率啁嗽與線寬增彊因子、色散繫數、小信號增益特徵參數及初始啁啾之間的關繫.結果錶明:噹輸入變換極限的高斯脈遲時,色散會引起增益壓縮,脈遲展寬和頻率啁啾;同樣情況下,線寬增彊因子越大,脈寬加寬越明顯,輸齣脈遲啁嗽越大,且隨著線寬增彊因子的增大,輸齣脈遲啁啾極大值嚮特徵參數值較小的一邊移動.噹輸入啁啾高斯脈遲時,初始脈遲啁嗽越大,增益壓縮越明顯,啁啾繫數為正時,脈遲單純展寬,輸齣啁啾隨特徵參數的增大而逐漸減小,啁啾繫數為負時,初始啁啾與群速度色散導緻的啁啾相互競爭,緻使脈遲先被壓縮後被展寬;脈遲最窄處對應的特徵參數隨線寬增彊因子的增大而先增大後減小,輸齣啁啾隨特徵參數的增大而經歷振盪後趨于平穩.
채용해석방법,재고필재료손모화색산적정황하,상세연구료무조추고사맥충화조추고사맥충재반도체광방대기중전수적물리과정,분석료강도증익、맥충관도화빈솔조수여선관증강인자、색산계수、소신호증익특정삼수급초시조추지간적관계.결과표명:당수입변환겁한적고사맥충시,색산회인기증익압축,맥충전관화빈솔조추;동양정황하,선관증강인자월대,맥관가관월명현,수출맥충조수월대,차수착선관증강인자적증대,수출맥충조추겁대치향특정삼수치교소적일변이동.당수입조추고사맥충시,초시맥충조수월대,증익압축월명현,조추계수위정시,맥충단순전관,수출조추수특정삼수적증대이축점감소,조추계수위부시,초시조추여군속도색산도치적조추상호경쟁,치사맥충선피압축후피전관;맥충최착처대응적특정삼수수선관증강인자적증대이선증대후감소,수출조추수특정삼수적증대이경력진탕후추우평은.
Analytical characterization of un-chirped Gaussian pulse and chirped Gaussian pulse propagating through a semiconductor optical amplifier (SOA) is presented under consideration of material loss and dispersion.The physical mechanism of interaction between Gaussian pulse and semiconductor material is analyzed.Energy gain,pulse width as well as frequency chirp of Gaussian pulse output from SOA are investigated.The results demonstrate that linewidth enhancement factor,dispersion coefficient and feature parameter all play important roles in deciding the output pulse characteristic.The material dispersion has no obvious impact on gain compression induced by group velocity dispersion.The pulse width is broadened under the combined effect of material dispersion and group velocity dispersion.When a chirped Gaussian pulse propagates in an SOA,the same chirp component means the same gain compression no matter the chirp is positive or negative.The gain compression becomes serious with the enhancement of initial chirp.The maximum value of output pulse chirp shifts towards the smaller value of feature parameter with the increase of linewidth enhancement factor when an original un-chirped Gaussian pulse inputs.On the other hand,the output pulse chirp first increases then falls sharply,and finally reaches a steady value when a chirped Gaussian optical pulse inputs.
