Song Yang, Callum Robertson Smith, Christian Rosenberg Petersen, Ole Bang
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引用次数: 0
摘要
马米舍夫振荡器是一种优雅而通用的产生超短高能激光脉冲的方法。它是在全光纤结构中实现的,提供了鲁棒性和良好的光束质量,确保了可靠和高效的性能。设计了一种全光纤2 μ m Mamyshev振荡器,该振荡器基于两个掺杂tm的光纤放大器,由一个带宽为11.2 nm−3 dB的宽带固定波长滤波器和一个带宽为1.1 nm−3 dB的可调谐窄带宽滤波器分隔。根据泵浦功率和滤波器波长分离,确定并绘制了三种不同的发射模式:1)如果任一泵浦功率不足,则不锁模;2)在泵浦功率的有限区域内稳定锁模;3)如果其中一个泵浦功率超过阈值,则类噪声脉冲锁模。在标准硅光纤中,随着滤波器波长距离的增加,两个泵浦功率的锁模区域变小,脉冲被压缩到309fs。工作模式的映射提供了工作模式和腔参数之间的清晰关系,为使用显著不同带宽滤波器的马米舍夫振荡器的设计提供了有价值的见解。
All-Fiber 2 µm Mamyshev Oscillator: Mapping of Different Operating Regimes
The Mamyshev oscillator is an elegant and versatile method for generating ultrashort and high-energy laser pulses. It is realized in an all-fiber structure, which provides robustness and good beam quality, ensuring reliable and efficient performance. An all-fiber 2 µm Mamyshev oscillator is presented based on two Tm-doped fiber amplifiers separated by a broadband fixed wavelength filter with 11.2 nm −3 dB bandwidth and a tunable narrow bandwidth filter with 1.1 nm −3 dB bandwidth. Three distinct emission regimes are identified and mapped out in terms of the pump power and the filter wavelength separation: 1) no mode-locking if either pump power is insufficient 2) stable mode-locking in a limited region of pump powers, and 3) noise-like pulse mode-locking if one of the pump powers exceeds a threshold. It is demonstrated how the mode-locking region in terms of the two pump powers narrows with increasing filter wavelength separation and the pulses are compressed to 309 fs in standard silica fiber. The map over operation regimes provides a clear relationship between operating regimes and cavity parameters, offering valuable insights into the design of Mamyshev oscillators using filters of significantly different bandwidths.
期刊介绍:
Laser & Photonics Reviews is a reputable journal that publishes high-quality Reviews, original Research Articles, and Perspectives in the field of photonics and optics. It covers both theoretical and experimental aspects, including recent groundbreaking research, specific advancements, and innovative applications.
As evidence of its impact and recognition, Laser & Photonics Reviews boasts a remarkable 2022 Impact Factor of 11.0, according to the Journal Citation Reports from Clarivate Analytics (2023). Moreover, it holds impressive rankings in the InCites Journal Citation Reports: in 2021, it was ranked 6th out of 101 in the field of Optics, 15th out of 161 in Applied Physics, and 12th out of 69 in Condensed Matter Physics.
The journal uses the ISSN numbers 1863-8880 for print and 1863-8899 for online publications.
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