High-efficiency wide-temperature semiconductor array-pumped intracavity frequency-doubling solid-state laser
A solid-state laser and semiconductor technology, applied in the laser field, can solve problems such as limiting the application range and working stability of the laser, increasing the difficulty of laser assembly, and increasing the requirements for temperature control.
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specific Embodiment 1
[0018] The implementation mode of the all-solid-state laser for frequency doubling in the semiconductor array pump cavity of the present invention, inserting a dispersion crystal to change the optical path of the frequency doubling light, see image 3 , this embodiment includes: a laser structure semiconductor laser 201 , a laser crystal 202 , a first nonlinear crystal 203 , a dispersion crystal 204 , and a second nonlinear crystal 205 . Two nonlinear crystals are cut obliquely from one crystal, and the inclination of the light-transmitting surface of the intermediate dispersion crystal is equal to the oblique cutting direction of the nonlinear crystal. Laser crystals, dispersion crystals, and nonlinear crystals can also be glued together. Laser crystal can be Nd:YVO 4 , the dispersion crystal is an optical crystal YAG with obvious isotropic optical properties, the nonlinear crystal is LBO, the nonlinear phase matching method is type I phase matching, and the optical axes of ...
specific Embodiment 1 3
[0019] Specific embodiment 1 three-dimensional figure sees Figure 4 : The laser structure includes a semiconductor laser 211 , a laser crystal 212 , a first block nonlinear crystal 213 , a dispersion crystal 214 , and a second block nonlinear crystal 215 .
[0020] In the specific embodiment 1, the beam splitting fundamental frequency light and frequency doubled light in the dispersive crystal cavity refer to Figure 5 : the first non-linear crystal 221, the dispersion crystal 222, and the second non-linear crystal 223. The fundamental frequency light 224 is oscillated in the cavity, the frequency doubled light 225 of the fundamental frequency light is separated through the dispersion crystal in the forward direction, and the frequency doubled light 226 of the fundamental frequency light is shared back and forth through the dispersion crystal.
[0021] The implementation mode of the all-solid-state laser in the way of semiconductor array pumping frequency doubling in the cav...
specific Embodiment 2
[0022] 3D view see Figure 8 : The laser structure includes a semiconductor laser 311 , a laser crystal 312 , an optical wave plate 313 and a nonlinear crystal 314 .
[0023] The difference with embodiment 1 is: the optical axis direction of each optical crystal in specific embodiment 2 can be found in Figure 8 , the direction of the optical axis of the optical wave plate 323 is 45 degrees to the optical axis of the laser crystal 322 and the nonlinear crystal 324 .
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