Free sample for Fused Silica - Nd:YAG Crystal – WISOPTIC
Free sample for Fused Silica - Nd:YAG Crystal – WISOPTIC Detail:
Nd:YAG (Neodimium Doped Yttrium Aluminum Garnet) has been and continue to be the most widely used laser crystal for solid-state lasers. Good fluorescence lifetime (twice more than that of Nd:YVO4) and thermal conductivity, as well as robust nature, make Nd:YAG crystal very suitable for high-power continuous wave, high-energy Q-switched and single mode operations.
WISOPTIC provides Nd:YAG rods with the following features: different doping levels, high optical homogeneity, high processing accuracy, precise barrel grooving and wedge angle, various end cuts, various dielectric coatings, high damage threshold.
Contact us for the best solution for your application of Nd:YAG crystals.
WISOPTIC Capabilities – Nd:YAG
• Various options of Nd-doping ratio (0.1%~1.3at%)
• Various options of rods or slabs (flat, wedged, Brewster, grooved, etc)
• High optical homogeneity
• High processing accuracy
• High quality coating, high damage threshold
• Very competitive price, quick delivery
WISOPTIC Standard Specifications* - Nd:YAG
Standard Doping Ratio | Nd%=0.1%~1.3at% |
Orientation | <111> or <100> or <110> |
Orientation Tolerance | +/-0.5° |
Dimensions | Diameter: 2~15 mm, Length: 3~220 mm |
Dimension Tolerance | Diameter (±0.05)×Length (±0.5) mm |
Barrel Finish | Ground with 400# grit, or polished |
Flatness | < λ/10 @ 632.8 nm |
Surface Quality | < 10/5 [S/D] |
Parallelism | < 10” |
Perpendicularity | ≤ 5′ |
Chamfer | 0.15 ± 0.025mm @ 45° |
TransmittedWavefront Distortion | < λ/10 @ 632.8 nm |
Clear Aperture | > 90% central area |
Extinction Ratio | > 30 dB |
Coating | AR-Coating: R<0.10% @1064nm |
Laser Damage Threshold | > 800 MW/cm2 for 1064nm, 10ns, 10Hz (AR-coated) |
* Products with special requirement upon request. |
DOWNLOAD Technical Data – Nd-YAG
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Main Features - Nd:YAG
• High gain, low threshold, high efficiency
• Homogeneous distribution of Nd with subtle concentration gradient
• High thermal conductivity, high thermal shock resistance
• High homogeneity, low wavefront distortion
• High optical quality, low single pass loss (especially at 1064nm)
• Various modes of operation (CW, pulsed, Q-switched, mode locked)
Physical Properties – Nd:YAG
Chemical formula | Y3-3xNd3xAl5O12 (x=Nd doping ratio) |
Crystal structure | Cubic |
Lattice constants | 12.01 Å |
Density | 4.55 g/cm3 |
Rupture stress | 1.3~2.6×103 kg/cm2 |
Melting point | 1970 °C |
Mohs hardness | 8~8.5 |
Thermal conductivity | 14 W/(m·K) @20°C, 10.5 W/(m·K) @100°C |
Thermal expansion coefficients | 7.8×10-6 /K @<111>, 7.7×10-6 /K @<110>, 8.2×10-6 /K @<100> |
Thermal shock resistance | 790 W/m |
Optical Properties – Nd:YAG
Laser transition |
4F3/2 → 4I11/2 @ 1064 nm |
Photon energy |
1.86×10-19 J |
Emission linewidth |
4.5Å @ 1064 nm |
Stimulated emission cross-section |
2.7~8.8×10-19 /cm2 @ Nd%=1.0at% |
Loss coefficients |
0.003 /cm @ 1064 nm |
Fluorescence lifetime |
230 µs @ 1064 nm |
Refractive index |
1.818 @ 1064 nm |
Pump wavelength |
807.5 nm |
Absorption band at pump wavelength |
1 nm |
Polarized emission |
Unpolarized |
Thermal birefringence |
High |
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