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Amplification of fluorescence using collinear picosecond optical parametric amplification at degeneracy 下载免费PDF全文
We demonstrate the output characteristic of broadband parametric amplification of incoherent light pulses in a 355-nm pumped degenerate picosecond optical parametric amplification with either saturated or unsaturated amplification.The optical parametric amplifier is seeded by the fluorescence generated in a solution of pyridine-1 dye in ethanol.With the saturated amplification,we can obtain high energy incoherent light pulses,whose full width at half maximum bandwidth varies from 16 nm to 53 nm for the different phase matching angles near degeneracy.Moreover,the unsaturated bandwidth of the amplified pulses fits well to the calculated result at degeneracy.Selecting s-polarized fluorescence with a Glan-Taylor prism,the maximum bandwidth of the amplified fluorescence is found to be 59 nm for a purely s-polarized seed.The maximum output energy is 0.67 mJ for the optical parametric amplifier.By using an optical filter and compressor,the generated high energy incoherent light has great potential as the incoherent pump,signal or idler wave of a parametric down-conversion process,so that a wave with a high degree of coherence can be generated from an incoherent pump light. 相似文献
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利用单根Nd∶YAG晶体棒,实现1064nm和1319nm双波长基频光振荡及其倍频光532nm、660nm激光的输出.采用LD侧面抽运单根Nd∶YAG晶体棒实现1064nm和1319nm基频光振荡,在此基础上使用非线性频率变换技术获得532nm和660nm倍频光的输出.结果表明:1064nm和1319nm基频激光同时输出时功率分别为30.5W和8.78W,单独输出时功率分别为35.6W和11.2W;在声光调Q频率分别为10.5kHz和20.5kHz时,获得了功率分别为5.34W和1.353W的532nm激光和660nm激光两路同时运转输出、功率分别为6.72W和1.902W各路单独输出,两种情况下倍频转换效率均为17.5%和15.4%,不稳定度小于2%. 相似文献
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利用单根Nd∶YAG晶体棒,实现1 064 nm和1 319 nm双波长基频光振荡及其倍频光532 nm、660 nm激光的输出.采用LD侧面抽运单根Nd∶YAG晶体棒实现1 064 nm和1 319 nm基频光振荡,在此基础上使用非线性频率变换技术获得532 nm和660 nm倍频光的输出.结果表明:1 064 nm和1 319 nm基频激光同时输出时功率分别为30.5 W和8.78 W,单独输出时功率分别为35.6 W和11.2 W|在声光调Q频率分别为10.5 kHz和20.5 kHz时,获得了功率分别为5.34 W和1.353 W的532 nm激光和660 nm激光两路同时运转输出、功率分别为6.72 W和1.902 W各路单独输出,两种情况下倍频转换效率均为17.5%和15.4%,不稳定度小于2%. 相似文献
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将石墨烯作为宽带可饱和吸收体分别应用在1.06μm Nd∶YAG固体激光器、2μm Tm∶YAP固体激光器以及1.55μm掺铒全光纤激光中.石墨烯采用化学汽相沉积法制备,以乙炔作为碳源,25μm厚的铜箔作为生长基体和催化剂,H2为载气,Ar为辅助气体,在常压、1 000℃高温条件下进行生长.1.06μm Nd∶YAG固体激光器实验中,采用直线型侧面泵浦腔型结构,当输出功率为10W时,得到了重复频率为360kHz,脉冲宽度240ns的最短脉冲输出,其单脉冲能量为27μJ,峰值功率为115.7W;2μm Tm∶YAP固体激光器实验中,使用中心波长在795nm附近的半导体激光器作为泵浦源,采用10%透过率的输出镜获得了脉宽为1.4μs的最窄调Q脉冲;环形腔1.55μm掺铒全光纤激光器实验中,利用1.25m长的高掺铒光纤作为增益光纤,当泵浦功率为100mW时,输出功率为10mW,获得了脉冲宽度314ps的稳定被动连续锁模脉冲,脉冲重复频率为20MHz并验证了同次制备的石墨烯的宽带可饱和吸收特性. 相似文献
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