Abstract
The 2.94-μm nanosecond erbium laser is an important solid-state laser source in the wide-tuning mid-infrared laser and clinical medical research. In this work, a novel LiNbO<sub>3</sub> acousto-optically <i>Q</i>-switched Er:YAG laser is developed, and the effects of different <i>Q</i>-switched delay times and output coupler’s reflectivities on the laser output pulse characteristics are investigated at a repetition frequency of 20 Hz. A concave-convex resonant cavity is designed to compensate for the thermal lens effect, and a single <i>Q</i>-switched pulse is obtained. The maximum pulse energy and minimum pulse duration are 34.68 mJ and 119.9 ns respectively, with corresponding peak power of 289.24 kW. Compared with the plane-plane cavity, the cavity proposed herein increases the output energy by 2.09 times. To our knowledge, this is the highest energy ever obtained in the acousto-optically <i>Q</i>-switched Er:YAG laser. This work provides a new means for further studying wide-tuning mid-infrared laser technology.
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