红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
5期
1421-1427
,共7页
环形腔光反馈被动相干合成%相位噪声%受激布里渊散射
環形腔光反饋被動相榦閤成%相位譟聲%受激佈裏淵散射
배형강광반궤피동상간합성%상위조성%수격포리연산사
passive phasing in the ring-cavity structure%phase noise%stimulated Brillouin scattering
研究了光纤环形腔光反馈系统的锁相原理和锁相过程,分析了聚焦透镜焦距对锁相速度的影响;基于宽谱放大以及受激布里渊散射效应的数值模型,评估了系统各路之间光程的方差大小、动态相位噪声频率大小,受激布里渊散射效应对系统的选频过程及其稳定性的影响。计算结果表明,选择合适的聚焦透镜焦距,可以获得较快的锁相速度;相位噪声会引起光束质量退化,严重时导致跳模现象发生;高功率输出时,光纤中的受激布里渊散射效应会限制各频率下的峰值强度,并导致更多波长激射以及光束质量退化。理论证明了环形腔光反馈会提供一种模式线宽随反馈次数增加而不断压窄的机制,SBS效应的存在则提供了一种谱线展宽机制,使得实际模式线宽稳定在均衡值。
研究瞭光纖環形腔光反饋繫統的鎖相原理和鎖相過程,分析瞭聚焦透鏡焦距對鎖相速度的影響;基于寬譜放大以及受激佈裏淵散射效應的數值模型,評估瞭繫統各路之間光程的方差大小、動態相位譟聲頻率大小,受激佈裏淵散射效應對繫統的選頻過程及其穩定性的影響。計算結果錶明,選擇閤適的聚焦透鏡焦距,可以穫得較快的鎖相速度;相位譟聲會引起光束質量退化,嚴重時導緻跳模現象髮生;高功率輸齣時,光纖中的受激佈裏淵散射效應會限製各頻率下的峰值彊度,併導緻更多波長激射以及光束質量退化。理論證明瞭環形腔光反饋會提供一種模式線寬隨反饋次數增加而不斷壓窄的機製,SBS效應的存在則提供瞭一種譜線展寬機製,使得實際模式線寬穩定在均衡值。
연구료광섬배형강광반궤계통적쇄상원리화쇄상과정,분석료취초투경초거대쇄상속도적영향;기우관보방대이급수격포리연산사효응적수치모형,평고료계통각로지간광정적방차대소、동태상위조성빈솔대소,수격포리연산사효응대계통적선빈과정급기은정성적영향。계산결과표명,선택합괄적취초투경초거,가이획득교쾌적쇄상속도;상위조성회인기광속질량퇴화,엄중시도치도모현상발생;고공솔수출시,광섬중적수격포리연산사효응회한제각빈솔하적봉치강도,병도치경다파장격사이급광속질량퇴화。이론증명료배형강광반궤회제공일충모식선관수반궤차수증가이불단압착적궤제,SBS효응적존재칙제공료일충보선전관궤제,사득실제모식선관은정재균형치。
The theory and basic properties on the passive phasing in the ring-cavity structure was illustrated. The influence of the focal length on the mode-locking speed was analyzed. An analysis model was established consisting of a broad spectrum amplification model and a simplified model for stimulated Brillouin scattering effect. Speed and stability of the mode-locking in this scheme was shown to be determined by the variance of optical path difference, the dynamic phase noise and the stimulated Brillouin scattering effect. The simulation results show that, using a proper focal length, a fast mode-locking speed is obtained. The phase noise degenerates of the beam quality , and even causes the mode hoping. The stimulated Brillouin scattering effect of the fiber with high power output limits the peak power of each frequency, increases the peak number in the output spectrum, and causes degeneration of beam quality. The mechanism of the mode width decrease with the growth of feedback times is demonstrated in theory. The results show that the stimulated Brillouin scattering effect provides a mechanism of mode width growth, which makes the mode width maintain at a balanced value.