Yb:(Sc,Y,Lu)2O3薄板激光器的连续波和锁模工作

C. Baer, C. Saraceno, O. Heckl, M. Golling, T. Sudmeyer, K. Beil, C. Krãnkel, K. Petermann, G. Huber, U. Keller
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引用次数: 4

摘要

最近的SESAM模型锁定薄盘激光器已经实现了平均功率> 140 W[1]和脉冲能量> 25µJ[2],这比任何其他超快振荡器技术都要高。在高场激光科学等领域的许多实验都要求脉冲持续时间在100秒以下,到目前为止还没有在薄圆盘激光器上得到证明。标准薄板材料Yb:YAG在高效高功率操作中,脉冲持续时间限制在700fs以上。使用Yb:KYW,在240fs的脉冲中演示了22w的平均功率[3]。最近,倍半氧化物材料作为薄片状几何结构中大功率短脉冲产生的有前途的候选材料引起了人们的极大关注[4]。例如,在40 W时,Yb:Lu2O3脉冲短至329 fs[5],在7.2 W时,Yb:LuScO3脉冲持续时间为227 fs[6],已经从SESAM模型锁定薄板激光振荡器中实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CW and modelocked operation of an Yb:(Sc,Y,Lu)2O3 thin-disk laser
Recent SESAM modelocked thin disk lasers have achieved average powers > 140 W [1] and pulse energies > 25 µJ [2], which is higher than for any other ultrafast oscillator technology. Many experiments in areas such as high field laser science require pulse durations in the sub-100-fs regime, which has not been demonstrated with thin disk lasers so far. The standard thin-disk material Yb:YAG is limited to pulse durations above 700 fs in efficient high power operation. Using Yb:KYW, 22 W of average power were demonstrated in 240-fs pulses [3]. Recently, sesquioxide materials have attracted great attention as a promising candidate for high-power short pulse generation in the thin-disk geometry [4]. For example with Yb:Lu2O3 pulses as short as 329 fs at 40 W [5] and with Yb:LuScO3 pulse durations of 227 fs at 7.2 W [6] have been achieved from a SESAM modelocked thin-disk laser oscillator.
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