Thiré Nicolas, Maksimenka Raman, Kiss Bálint, Ferchaud Clément, Bizouard Pierre, Cormier Eric, Osvay Károly, Forget Nicolas
Opt Express. 2017 Jan 23;25(2):1505-1514. doi: 10.1364/OE.25.001505.
We demonstrate an optical parametric chirped-pulse amplifier delivering 4-cycles (38-fs) pulses centered around 3.1 µm at 100-kHz repetition rate with an average power of 4 W and an undersampled single-shot carrier-envelope phase noise of 81 mrad recorded over 25 min. The amplifier is pumped by a ~1.1 ps, Yb-YAG, thin-disk regenerative amplifier and seeded with a supercontinuum generated in bulk YAG from the same pump pulses. Carrier-envelope phase stability is passively achieved through difference-frequency generation between pump and seed pulses. An additional active stabilization at 10 kHz combining 2f-to-f interferometry and a LiNbO acousto-optic programmable dispersive filter achieves a record low phase noise.
我们展示了一种光学参量啁啾脉冲放大器,它能以100 kHz的重复频率产生中心波长约为3.1 µm的4周期(38 fs)脉冲,平均功率为4 W,在25分钟内记录的欠采样单脉冲载波包络相位噪声为81 mrad。该放大器由一个约1.1 ps的Yb - YAG薄片再生放大器泵浦,并由同一泵浦脉冲在块状YAG中产生的超连续谱作为种子光。通过泵浦脉冲和种子脉冲之间的差频产生被动地实现载波包络相位稳定性。在10 kHz频率下,结合2f - f干涉测量法和一个LiNbO声光可编程色散滤波器的额外主动稳定化实现了创纪录的低相位噪声。