| Autor: |
Xiaodong Xu, Yicheng Wang, Huaqiang Cai, Soile Suomalainen, Mircea Guina, Yongguang Zhao, Wei Jing, Mark Mero, Jun Xu, Zhoubin Lin, Zhongben Pan, Fabian Rotermund, Weidong Chen, Lizhen Zhang, Li Wang, Pavel Loiko, Huaijin Zhang, Haohai Yu, Hualei Yuan, Antti Härkönen, Xavier Mateos, Sun Young Choi, Valentin Petrov, Won Bae Cho, Uwe Griebner, Hui Huang |
| Rok vydání: |
2019 |
| Předmět: |
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| Zdroj: |
Eleventh International Conference on Information Optics and Photonics (CIOP 2019). |
| Popis: |
Mode-locked lasers emitting ultrashort pulses in the 2-μm spectral range at high (100-MHz) repetition rates offer unique opportunities for time-resolved molecular spectroscopy and are interesting as pump/seed sources for parametric frequency down-conversion and as seeders of ultrafast regenerative laser amplifiers. Passively mode-locked lasers based on Tm3+- and Ho3+-doped bulk solid-state materials have been under development for about a decade. In 2009 we demonstrated the first steady-state operation of such a Tm:KLu(WO4)2 laser using a single-walled carbon nanotube (SWCNT) saturable absorber (SA), generating 10-ps pulses at 1.95 μm. In 2012 this laser produced 141-fs pulses at 2.037 μm. More recently, the study of numerous active media with different SAs resulted in the generation of sub-100-fs (sub-10-optical-cycle) pulses. Materials with broad and smooth spectral gain profile were selected, naturally emitting above 2 μm to avoid water vapor absorption/dispersion effects, including anisotropic materials, strong crystal-field distortion in hosts that do not contain rare-earths, crystals with structural or compositional (i.e. mixed compounds) disorder that exhibit inhomogeneous line broadening, mixed laser ceramics, and Tm,Ho-codoping of ordered and disordered crystals and ceramics. A broad absorption band in semiconducting SWCNTs spans from 1.6 to 2.1-μm whereas the absorption of graphene extends into the mid-IR and scales for multilayers, increasing the modulation depth. Compared to GaSb-based semiconductor SA mirrors (SESAMs), the carbon nanostructures exhibit broader spectral response and can be fabricated by simpler and inexpensive techniques. Chirped mirrors were implemented for groupvelocity dispersion compensation, to generate the shortest pulses, down to 52 fs at 2.015 μm. |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
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