The Basic Principles Of GTR-KTP Crystal

The Basic Principles Of GTR-KTP Crystal

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Potassium Titanyl Phosphate (KTiOPO4 or KTP) is an excellent nonlinear optical product appropriate for use in lots of optical units. It's higher nonlinear coefficient and secure physical assets.

Increased bulk absorption Houses, reducing IR absorption and enhancing All round optical effectiveness.

GAMDAN Optics hydrothermally developed KTP crystals Use a noticeably bigger gray tracking resistance in comparison with flux grown KTP crystals.

Depending on The grey monitoring resistance (GTR) KTP crystals, the overall performance of the high productive and compact intracavity frequency doubling 532 nm laser was investigated. The gray monitoring exam…

                                                                                                 

Comparison involving the shared and coupled resonators for the intracavity optical parametric oscillators pumped by passively Q-switched Nd:GdVO4 lasers is experimentally made. The shared and coupled…

CRYSTECH has greater than twenty years of KTP expansion and processing experience. The crystal advancement approach continues to be optimized to offer significant-top quality and effective crystals, and the coating procedure is specifically meant to deliver a relatively increased problems threshold.

                                                                                                 

KTP  is an excellent nonlinear crystal, but its gray monitoring phenomena  limitations its use in higher repetition rate and substantial electrical power laser systems. CASTECH's GTR-KTP crystal has larger gray tracking resistance compared to the standard flux developed KTP crystal.

Remarkable destruction threshold compared to traditional KTP crystals, guaranteeing dependability in demanding apps.

The crystals are commonly utilized to double the frequency of Nd:YAG and Nd:YVO�?lasers, building obvious inexperienced laser output (532 nm) from the basic 1064 nm wavelength.

GTR-KTP crystals, formulated with progressive producing procedures, show drastically better resistance to gray monitoring and reduced absorption while in the UV and visual locations, making them ideal for an array of apps like frequency doubling, parametric oscillation, and laser amplification.

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Economical sub-nanosecond intracavity optical parametric oscillator pumped using a passively Q-switched Nd:GdVO4 laser