物理学报
物理學報
물이학보
2013年
9期
199-203
,共5页
刘成%王兆华?%沈忠伟%张伟%滕浩%魏志义*
劉成%王兆華?%瀋忠偉%張偉%滕浩%魏誌義*
류성%왕조화?%침충위%장위%등호%위지의*
环形腔%再生放大%高能量
環形腔%再生放大%高能量
배형강%재생방대%고능량
ring cavity%regenerative amplifier%high-energy
介绍了一种新型的高能量环形长腔再生放大器,通过对谐振腔的模式分布进行计算,建立了腔长为12 m的环形腔再生放大器,在150 mJ的抽运能量下,得到了单脉冲能量为20 mJ的放大激光输出,对应的转化效率为13.3%,其输出激光的能量远远超过了常规的再生放大器输出激光的单脉冲量.放大激光的输出光谱为30 nm,可以支持<40 fs的傅里叶转换极限脉宽.
介紹瞭一種新型的高能量環形長腔再生放大器,通過對諧振腔的模式分佈進行計算,建立瞭腔長為12 m的環形腔再生放大器,在150 mJ的抽運能量下,得到瞭單脈遲能量為20 mJ的放大激光輸齣,對應的轉化效率為13.3%,其輸齣激光的能量遠遠超過瞭常規的再生放大器輸齣激光的單脈遲量.放大激光的輸齣光譜為30 nm,可以支持<40 fs的傅裏葉轉換極限脈寬.
개소료일충신형적고능량배형장강재생방대기,통과대해진강적모식분포진행계산,건립료강장위12 m적배형강재생방대기,재150 mJ적추운능량하,득도료단맥충능량위20 mJ적방대격광수출,대응적전화효솔위13.3%,기수출격광적능량원원초과료상규적재생방대기수출격광적단맥충량.방대격광적수출광보위30 nm,가이지지<40 fs적부리협전환겁한맥관.
We demonstrate a novel regenerative amplifier with a long ring cavity. Calculation on cavity parameters supports a large mode size. Based on the simulation with the cavity design software, we successfully established a 12 m ring regenerative amplifier. The amplified laser energy up to 20 mJ was obtained under 150 mJ green pump laser at a repetition rate of 10 Hz, corresponding to 13.3%conversion efficiency. The spectral bandwidth of the output pulse was 30 nm, which could support a sub 30 fs pulse duration. After seed injection, the ASE of the amplifier was effectively suppressed.