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Applied Physics 2025
半导体泵浦主动调Q Nd:YVO4/YVO4/KGW双频移拉曼激光器
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Abstract:
实现了以c切Nd:YVO4晶体作为激光增益介质,b切KGW和a切YVO4为拉曼晶体的半导体泵浦主动调Q双频移同步振荡的拉曼激光器的高效运转,得到YVO4晶体在890 cm?1处1178 nm和KGW晶体在901 cm?1处1180 nm的一阶斯托克斯光的双波长同步脉冲输出,当入射泵浦功率为8.37 w,脉冲重复率为15 kHz时,由1178和1180 nm光组成的拉曼激光平均输出最高为1.45 w。
The efficient operation of a semiconductor-pumped actively Q-switched dual-frequency-shifted synchronous oscillation Raman laser was successfully demonstrated, employing a c-cut Nd:YVO4 crystal as the laser gain medium in conjunction with b-cut KGW and a-cut YVO4 crystals serving as Raman crystals. The synchronous dual wavelength pulse output of 1178 and 1180 nm first-order Stokes light corresponding to 890 cm?1 Raman shift in YVO4 and 901 cm?1 Raman shift in KGW is obtained. When the incident pump power is 8.37 w and the PRF is 15 kHz, the average output Raman laser composed of 1178 and 1180 nm lines is 1.45 w.
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