6X6X3 Potassium Titanyl Phosphate (KTiOPO3 or KTP) crystals For Sale
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6X6X3 Potassium Titanyl Phosphate (KTiOPO3 or KTP) crystals :
$80.00
Potassium Titanyl Phosphate (KTiOPO3 or KTP) crystals are widely used in both commercial and military lasers including laboratory and medical systems, range-finders, lidar, optical communication and industrial systems.
OURKTP is featured by
1. Large nonlinear optical coefficient
2.Wide angular bandwidth and small walk-off angle
3.Broad temperature and spectral bandwidth
4. High electro-optic coefficient and low dielectric constant
5.Large figure of merit
6.Nonhydroscopic, chemically and mechanically stable
weoffers
1.Strict quality control
2.large crystal size up to 20x20x40mm3 and maximum length of 60mm;
3.Quick delivery(2 weeks for polished only, 3 weeks for coated)
4.Unbeatable price and quantity discount
5.Technical support
6.AR-coating, mounting and re-polishing service
Chemical and Structural Properties of KTP Crystal
Crystal Structure
Orthorhombic, Space group Pna21, Point group mm2.
Lattice Parameter
a=6.404 Å, b=10.616 Å, c=12.814 Å
Melting Point
~1172 °C
Mohs Hardness
5
Density
3.01 g·cm-3
Thermal Conductivity
13 W·m-1·K-1
Thermal Expansion Coefficient
αx=11×10-6/K, αy=9×10-6/K, αz=0.6×10-6/K
Optical and Nonlinear Optical Properties of KTP Crystal
Transparency Range
350 nm ~ 4500 nm
Thermo-optic Coefficient [K-1](@1064nm)
dnx/dT=6.1×10-6 dny/dT=8.3×10-6 dnz/dT=14.5×10-6
Absorption Coefficient
<0.1% cm-1 @1064nm <1% cm-1 @532nm
For Type II SHG of
a Nd:YAG laser @1064nm
Temperature Acceptance: 24 °C·cm-1
Spectral Acceptance: 0.56 nm·cm-1
Angular Acceptance: 14.2 mrad·cm-1 (φ); 55.3mrad·cm-1(θ)
Walk-off Angle: 0.55°
NLO Coefficients
Non-vanished NLO Susceptibilities [pm/V]
d31=6.5 d24=7.6 d32=5 pm/Vd15=6.1 d33=13.7
Sellmeier Equations
(λ in μm)
ny2=3.0333+0.04154/(λ 2-0.04547)-0.01408λ2
nz2=3.3134+0.05694/(λ 2-0.05658)-0.01682λ2
Applications for SHG and SFG of Nd: lasers
KTP is the most commonly used material for frequency doubling of Nd:YAG and other Nd-doped lasers, particularly when the power density is at a low or medium level. To date, extra- and intra-cavity frequency doubled Nd:lasers using KTP have become a preferred pumping source for visible dye lasers and tunable Ti:Sapphire lasers as well as their amplifiers. They are also useful green sources for many research and industry applications.
* More than 80% conversion efficiency and 700mJ green laser were obtained with a 900mJinjection-seeded Q-switch Nd:YAG lasers by using extra-cavity KTP.
* 8W green laser was generated from a 15W LD pumped Nd:YVO4 with intra-cavity KTP.
* 200mW green outputs are generated from 1 W LD pumped Nd:YVO4 lasers by using THATSHIGH\'s 2x2x5mm KTP and 3x3x1mm Nd:YVO4.
* 2-5mw green outputs are generated from 180mw LD pumped Nd:YVO4 and KTP gluedcrystals. For more details, please refer to Glued Crystals.
KTP is also being used for intracavity mixing of 0.81μm diode and 1.064μm Nd:YAG laser to generate blue light and intracavity SHG of Nd:YAG or Nd:YAP lasers at 1.3μm to produce red light.
Applications for OPG, OPA and OPO
As an efficient OPO crystal pumped by a Nd:laser and its second harmonics, KTP plays an important role for parametric sources for tunable outputs from visible (600nm) to mid-IR (4500nm), as shown in Fig. 3 and Fig. 4.
Generally,KTP\'s OPOs provide stable and continuous pulse outputs (signal and idler) in fs, with 108 Hz repetition rate and a mW average power level. A KTP’s OPO that are pumped by a 1064nm Nd:YAG laser has generated as high as above 66% efficiency for degenerately converting to 2120nm.
The novel developed application is the non-critical phase-matched(NCPM) KTP OPO/OPA pumped by the X-cut KTP crystal. As shown in Fig.5, for pumping wavelength range from 0.7μm to 1 μm, the output can cover from 1.04μm to 1.45μm(signal) and from 2.15μm to 3.2μm(idler). More than 45% conversion efficiency was obtained with narrow output bandwidth and good beam quality.
OUR KTP Crystal Coating Service
Dual Band AR-coating (DBAR) for SHG of 1064nm with following features:
Low reflectance (R<0.15% @ 1064nm; R<0.5% @ 532nm)
High damage threshold (>400MW/cm2 @ 1064nm & 532nm)
Long durability
Broad band coating for OPO applications.
High reflectivity coating:HR @ 1064nm (R>99.8%) & HT @ 532nm (T>95%)
Other coating types are available upon request.
Specifications for KTP Crystal
Dimension Tolerance
(W±0.1mm) ×(H±0.1mm) ×(L+0.5/-0.1mm) (L≥2.5mm)
(W±0.1mm) ×(H±0.1mm) ×(L+0.1/-0.1mm) (L<2.5mm)
Angle Tolerance
Δθ ≤ 0.25° Δφ ≤ 0.25°
Clear Aperture
90% of central area
Chamfer
≤ 0.2mm @45°
Chip
≤ 0.1mm
Damage Threshold
[GW/cm2 ]
> 0.5 for 1064nm, TEM00, 10ns, 10Hz (AR-coated)
> 0.3 for 532nm, TEM00, 10ns, 10Hz (AR-coated)
Flatness
< λ/8 @ 633nm
Parallelism
< 20\"
Perpendicularity
≤ 5\'
Surface Quality [S/D]
< 10/5
Wavefront Distortion
< λ/8 @ 633nm
Coating
AR coating available upon request
Interior Quality
No visible scattering paths or centers [inspected by 50mW green laser]
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