论文信息 - High-average-power operation of a 100-mJ-class, conductively cooled, Q-switched Tm, Ho:YLF laser

High-average-power operation of a 100-mJ-class, conductively cooled, Q-switched Tm, Ho:YLF laser

A conductively cooled Tm, Ho:YLF laser capable of producing a pulse energy higher than 100 mJ was developed. The laser crystal was cooled to −80 °C in order to achieve low-threshold operation. In addition, the pumping density was optimized by using a simplified rate equation model for the Tm, Ho-codoped system so as to further reduce the laser threshold without decreasing the fractional population of the Ho upper-laser manifold in high power operations. As a result, the maximum average output power of 7.28 W was obtained at a pulse repetition frequency of 70 Hz. To the best of our knowledge, this is the highest average output power reported for a 100-mJ-class, conductively cooled, Q-switched 2 μm laser oscillator.

[1] Tamer F. Refaat,et al. Twenty years of Tm:Ho:YLF and LuLiF laser development for global wind and carbon dioxide active remote sensing , 2015 .

[2] Norman P. Barnes,et al. On the distribution of energy between the Tm 3F4 and Ho 5I7 manifolds in Tm-sensitized Ho luminescence , 1997 .

[3] Riko Oki,et al. Feasibility Study for Future Space-Borne Coherent Doppler Wind Lidar, Part 1: Instrumental Overview for Global Wind Profile Observation , 2017 .

[4] Z. Pu,et al. LIDAR-MEASURED WIND PROFILES The Missing Link in the Global Observing System , 2014 .

[5] Satoshi Ochiai,et al. 7.28-W, High-Energy, Conductively Cooled, Q-Switched Tm,Ho:YLF Laser , 2017, IEEE Photonics Technology Letters.

[6] Atsushi Sato,et al. Coherent 2 microm differential absorption and wind lidar with conductively cooled laser and two-axis scanning device. , 2010, Applied optics.

[7] Satoshi Ochiai,et al. A design strategy for a high-energy Tm,Ho: YLF laser transmitter , 2014, Asia-Pacific Environmental Remote Sensing.

[8] Atsushi Sato,et al. Diode-pumped 2-μm pulse laser with noncomposite Tm,Ho:YLF rod conduction-cooled down to -80°C. , 2015, Applied optics.

[9] U. Singh,et al. Spectroscopy and modeling of solid state lanthanide lasers: Application to trivalent Tm3+ and Ho3+ in YLiF4 and LuLiF4 , 2004 .