HGTR-KTP Electro-optic Crystal – Customized Products

Product ID: 6795


$100

HGTR-KTP Electro-optic Crystal – Customized Products

HGTR-KTP Electro-optic Crystal, also known as Highly Gray Trace Resistant Potassium Oxide Phosphate crystal, is an electro-optical crystal with excellent overall performance. HGTR-KTP electro-optic (Highly Gray Trace Resistant KTP) crystal has excellent performance of nonlinear optical properties, a wide range of allowable temperature matching and allowable angle matching, high threshold of gray trace resistance and light damage resistance, stable chemical and mechanical properties, etc. HGTR-KTP electro-optic crystal is mainly used for neodymium The HGTR-KTP electro-optic crystal is mainly used to generate green light by doubling the frequency of the laser and to integrate the optical waveguide of NLO and EO devices. It can also be used for laser frequency doubling, sum-frequency, differential frequency, parametric oscillation, optical waveguide devices, electro-optical modulators, electro-optical switches, pulse pickup, and other related fields, and has a wide range of applications in military research, medical, marine optics, laser weapons, and environmental remote sensing monitoring.

Note:
$100 is a deposit, not the final price of the product. Please contact us for price if needed.

FEATURES
High thermal conductivity
Wide temperature bandwidth
More efficient than regular KTP
Low absorption at 1064nm and 532nm
High quality crystals at competitive prices
Chemical and mechanical stability
Higher resistance to gray stains than ordinary KTP

Crystal Specifications

Materials HGTR-KTP
Aperture range From 2×2mm to 10×10mm
Coating AR/AR;R<0.2%@1064nm
Damage Threshold >600MW/cm2 @1064nm,10ns
Extinction Ratio >20dB
Optical Propagation >98.5%
Wavefront Distortion <λ/8 @1064nm


Crystal Properties

Materials HGTR-KTP
Dimensional Tolerance (W ±0.1mm)× (H± 0.1mm)× (L+0.5/-0.1mm)
Size Range Aperture:~10 ×10mm; Length:~15mm
Clear Aperture Center 90%
Crystal Scattering There are no visible scattering paths or centers when examined with a 50mW green laser
Flatness <λ/8 @633nm
Transmission Wavefront Distortion <λ/8 @633nm
Chamfer ≤0.2mm @45°
Surface Finish 10/5 S/D
Parallelism ≤20”
Perpendicularity ≤5‘
Angle Tolerance ≤0.25°
Coating Two face parallel AR/AR@1064nm

 

Spectrum

TaorLab laser crystals