Nonlinear optical crystal lithium fluorotellurite and its preparation method and use
A technology of lithium fluorotellurite and crystal is applied in the field of nonlinear optical materials to achieve the effects of simple method and process, phase matching and strong nonlinear optical effect.
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Embodiment 1
[0033] Embodiment 1: adopt vacuum high temperature solid phase method to synthesize inorganic compound Li 7 (TeO 3 ) 3 F crystal
[0034] Put the raw material mixture obtained by mixing the raw materials in a certain proportion into a platinum crucible with a diameter of 10.0mm, and put the crucible into the N 2 In the high-temperature tube furnace in the atmosphere, crystallize at the crystallization temperature for a period of time, then slowly cool down, filter, wash, and dry to obtain colorless and transparent Li 7 (TeO 3 ) 3 F crystal. The types of raw materials contained in the raw material mixture, the ratio of each raw material, the crystallization temperature, the relationship between the crystallization time and the sample number are shown in Table 1.
[0035] Table 1Li 7 (TeO 3 ) 3 The relationship between F synthesis conditions and sample numbers
[0036]
Embodiment 2
[0037] Embodiment 2: Inorganic compound Li 7 (TeO 3 ) 3 Analysis of the crystal structure of F
[0038] The structures of samples 1# to 5# were analyzed by single crystal X-ray diffraction and powder X-ray diffraction.
[0039] Wherein, the single crystal X-ray diffraction was performed on a SuperNova Dual Wavelength CCD type X-ray single crystal diffractometer of Agilent Company. The crystal size is 0.06×0.13×0.09mm 3 ; The data collection temperature is 295K, and the diffraction light source is monochromatic Mo-Kα rays The data were processed with absorption correction using the Multi-Scan method. Structural analysis was completed using the SHELXTL-97 program package; the position of the heavy atom was determined by the direct method, and the coordinates of the remaining atoms were obtained by the difference Fourier synthesis method; 2 The full-matrix least-squares method was used to refine all atomic coordinates and anisotropic thermal parameters.
[0040] Powder X-...
Embodiment 3
[0047] Embodiment 3: frequency doubling test experiment and result
[0048] The frequency doubling test experiment of sample 1# is as follows: use the laser with a wavelength of 1064nm generated by a Q-switched Nd:YAG solid-state laser with a frequency converter as the fundamental frequency light, irradiate the crystal powder to be tested, and use a photomultiplier tube to detect the generated The second harmonic of the oscilloscope is used to display the harmonic intensity. Grind the crystal sample to be tested and the KDP crystal of the standard sample separately, and use a standard sieve to sieve crystals of different particle sizes, the particle sizes are 53-62μm, 62-75μm, 75-90μm, 90-109μm, 109-150μm, 150- 212μm, 210-270μm. Observe the change trend of the multiplier signal with the particle size, and judge whether it can achieve phase matching. Under the same test conditions, compare the intensity of the second harmonic generated by the sample to be tested with the inte...
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