Visible ultraviolet band optical frequency converter
A technology of frequency conversion and ultraviolet band, applied in optics, nonlinear optics, instruments, etc., can solve the problems of raw material toxicity limiting crystals, crystal growth difficulties, and limiting high-efficiency laser applications, etc., to make up for the lack of phase mismatch, simple structure, Controllable Effects
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Embodiment 1
[0048] Embodiment 1: Quartz crystal deep ultraviolet wavelength 177.3nm frequency doubler converter
[0049] The preparation process of the optical frequency conversion device: using quartz crystal as the nonlinear optical crystal, the crystal processing method is as follows figure 1 As shown, using the maximum nonlinear coefficient d 11 , the quartz crystal is cut in the Z direction, and a grating structure with a periodic refractive index distribution is formed by laser etching in the Z direction of the light transmission direction, in which the photolithographic area provides an additional periodic phase, and the width of the processed area and the unprocessed area are both 0.7 μm . The additional periodic phase difference between the fundamental frequency light and the frequency doubled light that can be provided in the processing area is π, the crystal length in the entire processing area is 1mm, the crystal cross section is 3mm×3mm, and the surface is polished. The pe...
Embodiment 2
[0054] Embodiment 2: Quartz crystal ultraviolet wavelength 213nm frequency multiplication converter
[0055] As described in Example 1, the difference is that the pump source 7 is a pulsed laser with a wavelength of 426 nm, its pulse width is 10 ns, its repetition frequency is 50 Hz, and the section of the quartz crystal is 5×3 mm, wherein the processing area and The width of the unprocessed area is 1.4 μm. The phase difference between the fundamental frequency light and the frequency doubled light provided by the processed area is π. Increase the pump power to achieve laser output with an ultraviolet wavelength of 213nm. The output wavelength is as follows: Figure 5 shown.
Embodiment 3
[0056] Embodiment 3: Quartz crystal visible wavelength 770nm frequency multiplication converter
[0057] As shown in Example 1, the difference is that the pump source 7 is a femtosecond pulse laser with a wavelength of 1540nm, a pulse width of 500fs, a repetition rate of 200MHz, a quartz crystal cross section of 4×4mm, and a crystal length of 50mm. The surface is coated with a dielectric film with high transmittance of 1540nm and 770nm, no calcium fluoride prism splitter and glove box are required, and a grating structure with a periodic distribution of refractive index is formed by ion beam etching in the direction of light transmission Z, where each The width of the processed area and the unprocessed area in the period are both 34.4 μm, and the phase difference between the fundamental frequency light and the frequency doubled light is π. Increase the pump power, and the laser output with a visible wavelength of 770nm can be realized. The output wavelength is as follows: Ima...
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