LiNbO3
Lithium niobate(LiNbO3,LN)crystals are widely used as frequency doubling of wavelengths above 1000nm
Classification:
Detailed introduction
Lithium niobate(LiNbO3,LN)crystals are widely used as frequency doubling of wavelengths above 1000nm and optical parameter amplification of 1064nm pump light,and can also be used for quasi-phase matching.At the same time,lithium niobate crystals are also widely used in photoelectric regulators and waveguide materials as Q switches for Nd:YAG,Nd:YLF and Ti-doped sapphire lasers.
PRODUCT FEATURE
Small size;
Not easy to deliquescence;
High temperature stability;
Large electro-optical coefficient;
Wide range of transparency;
High electro-optical efficiency;
Low absorption loss;
Low damage threshold;
Easy to grow into large crystals;
Stable mechanical and chemical properties;
| Specifications | |
|
Dimension Tolerance |
(W ± 0.1 mm) × (H ± 0.1 mm) × (L ± 0.2mm) |
|
Angle Tolerance |
< ± 0.5° |
|
Parallelism |
<20" |
|
Perpendicularity |
<5′ |
|
Clear Aperture |
Central 90% of the diameter |
|
Surface Quality (Scratch/Dig) |
20/10 (MIL-PRF-13830B) |
|
Flatness |
<λ/8@633nm |
|
Transmitted Wavefront Distortion |
<λ/4@633nm |
|
Anti-Reflection Coating |
According to customer requirements |
| Chemical and Structural Properties | |
|
Crystal Structure |
Trigonal crystal system, space group R3c, point group 3m |
|
Lattice Parameter |
a=5.148 Å , c=13.863 Å |
|
Melting Point |
1253℃ |
|
Mohs Hardness |
5 |
|
Density |
4.64 g/cm3 |
|
Thermal Conductivity |
38W/mK |
| Thermal Expansion Coefficients |
A, 2.0×10-6/K C, 2.2×10-6/K |
| Optical and Nonlinear Optical Properties | |
|
Transparency Range |
420~5200nm |
|
Therm-optic Coefficient ( λ in μm) |
dno/dT = -0.874 x 10-6 |
| dno/dT = -0.874 x 10-6 | |
| dne/dT = 39.073 x 10-6 | |
| Absorption Coefficients | ~ 0.1 % / cm @ 1064 nm |
| NLO Coefficients | deff =5.7 pm/V or ~14.6 x d36 for frequency doubling 1300 nm; |
| deff =5.3 pm/V or ~13.6 x d36 for OPO pumped @ 1064 nm; | |
| deff =17.6 pm/V or ~45 x d36 for quasi-phase-matched structure. | |
| Non-vanished NLO Susceptibilities | d33 = 34.4 pm/V |
| d31 = d15 = 5.95 pm/V | |
| d22 = 3.07 pm/V | |
| Sellmeier Equations (λ in μm) | no2 = 4.9048 + 0.11768 / (λ2 – 0.04750) – 0.027169λ2 |
| ne2 = 4.5820 + 0.099169 / (λ2 – 0.04443) – 0.021950λ2 | |
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