Laser Crystals
Laser crystals transform the energy with high parallelism and monochromaticity in space and time through the optical resonator. The most widely used include Ti:Al2O3, Yb:YAG, Nd:YAG, Er:YAG, Ho:YAG, etc....
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Laser crystals transform the energy with high parallelism and monochromaticity in space and time through the optical resonator. The most widely used include Ti:Al2O3, Yb:YAG, Nd:YAG, Er:YAG, Ho:YAG, etc....
The wavelength expansion of the laser light source largely depends on the frequency conversion ability of the nonlinear optical crystal. It is the material basis and source for obtaining lasers of different wavelengths (different colors)...
Piezoelectric crystals are a kind of non-centrosymmetric crystal. Under the action of mechanical force, they produce deformation, which causes the relative displacement of the charged particles, so that positive...
In the next few years, the 3rd generation semiconductor materials represented by gallium nitride and silicon carbide will achieve breakthroughs in material growth, device preparation and other technologies, and be applied to 5G base stations...
The crystals have the characteristics of high transmittance(in some wavelength), high refractive index uniformity, stable mechanical properties, non-deliquescent, and strong resistance to radiation damage. They are ideal materials for making various optic
Scintillation crystals are single-crystalline scintillator materials and are the most widely used scintillator materials. They can absorb the energy of invisible rays or particles and emit pulsed light, and then use photoelectric conversion devices to...
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