Abstract
An Er:YAG triangular ring laser resonantly pumped by a 1470 nm laser diode was reported. 7.28 W continuous-wave output power at 1645 nm was obtained by using a triangular ring resonator. In the Q-switched mode, the Er:YAG laser generated pulse energies from 6.05 mJ to 16.6 mJ at 1645 nm when pulse repetition rates change from 1 kHz to 200 Hz. By inserting an etalon into the resonator, the Er:YAG laser yielded Q-switched energies from 1.714 mJ to 5.1 mJ at 1617 nm when pulse repetition rates change from 1 kHz to 200 Hz.
Original language | English |
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Title of host publication | 2017 International Conference on Optical Instruments and Technology |
Subtitle of host publication | Advanced Laser Technology and Applications |
Editors | Chunqing Gao, Jayanta Kumar Sahu, Franz X. Kartner, Franz X. Kartner, Zhiyi Wei, Pu Wang |
Publisher | SPIE |
ISBN (Electronic) | 9781510617490 |
DOIs | |
Publication status | Published - 2018 |
Event | 2017 International Conference on Optical Instruments and Technology: Advanced Laser Technology and Applications, OIT 2017 - Beijing, China Duration: 28 Oct 2017 → 30 Oct 2017 |
Publication series
Name | Proceedings of SPIE - The International Society for Optical Engineering |
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Volume | 10619 |
ISSN (Print) | 0277-786X |
ISSN (Electronic) | 1996-756X |
Conference
Conference | 2017 International Conference on Optical Instruments and Technology: Advanced Laser Technology and Applications, OIT 2017 |
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Country/Territory | China |
City | Beijing |
Period | 28/10/17 → 30/10/17 |
Keywords
- Diode-pumped
- Er:YAG
- Eye-safe
- Q-switched
- Repetition rate adjustable
- Resonantly pumped
- Ring laser
- Solid-state
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Wang, S., Gao, C., Shi, Y., Ye, Q., & Wang, Q. (2018). Er:YAG triangular ring laser resonantly pumped by a 1470-nm laser diode. In C. Gao, J. K. Sahu, F. X. Kartner, F. X. Kartner, Z. Wei, & P. Wang (Eds.), 2017 International Conference on Optical Instruments and Technology: Advanced Laser Technology and Applications Article 106190H (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10619). SPIE. https://doi.org/10.1117/12.2294594