GTR-KTP Crystal Options

GTR-KTP Crystal Options

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Potassium Titanyl Phosphate (KTiOPO4 or KTP) is a wonderful nonlinear optical content suitable for use in many optical systems. It's got substantial nonlinear coefficient and stable Actual physical property.

Improved bulk absorption Qualities, minimizing IR absorption and improving All round optical efficiency.

GAMDAN Optics hydrothermally grown KTP crystals Possess a substantially higher grey monitoring resistance when compared with flux grown KTP crystals.

Compact successful eye-Harmless intracavity optical parametric oscillator having a shared cavity configuration.

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By means of Photograph-thermal Prevalent-path Interferometer, the event of grey monitoring could be measured by a rise of bulk absorption by way of a powerful CW 532 nm inexperienced laser in just numerous minutes.

CASTECH's GRT-KTP, as an outstanding NLO crystal, has reduce absorption and better problems threshold than the standard KTP, which we can easily conclude it possesses the next grey observe resistance.

Its most favored application is being a frequency doubler utilizing the 1064nm output of the Nd:YAG laser and to crank out 532nm laser. KTP’s Attributes also make it superior for electro-optic modulation, optical parametric era.

KTP  is a wonderful nonlinear click here crystal, but its gray tracking phenomena  boundaries its use in large repetition fee and superior electric power laser units. CASTECH's GTR-KTP crystal has greater gray monitoring resistance compared to regular flux developed KTP crystal.

Like our hydrothermally grown KTP crystals, flux grown KTP crystals also supply superb homogeneity. Here are a few of their unique parameters: 

Higher grey monitoring resistance, rendering it perfect for large repetition charge and substantial-energy laser methods.

GTR-KTP crystals, designed with revolutionary producing processes, exhibit considerably higher resistance to grey monitoring and lower absorption while in the UV and visible locations, making them appropriate for an array of applications including frequency doubling, parametric oscillation, and laser amplification.

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We report an intracavity optical parametric oscillator at 1.fifty seven μm dependant on non-critically nonlinear crystal KTP pushed by an finish-pumped acousto-optically Q-switched Nd:LuVO4 crystal. The output…

Intracavity optical parametric oscillator at 1572-nm wavelength pumped by passively Q-switched diode-pumped Nd:YAG laser