- Solid State Laser
- Semiconductor Laser
- DPSS laser
- Gas Laser
- Fiber Laser
- Fiber Coupled Laser(MM)
- Fiber Coupled Laser(SM)
- Ultrafast laser
- Femtosecond Laser
- Picosecond Laser
- Pulsed Laser
- Q-switched Laser
- Raman Laser
- Narrow Linewidth Fiber Laser
- Wavelength Tunable Laser
- Laser Diode
- Laser Module
- Pigtailed Laser
- DFB Laser
- DBR Laser
- SLED Laser
- VCSEL Laser
MgO:LiNbO3(Electro-optic Crystal)
MgO: LiNbO3 Electro-optic Crystals – Customized Products
Product ID: 6789
$100
MgO: LiNbO3 Electro-optic Crystals – Customized Products
MgO: LiNbO3 electro-optic crystals, also known as magnesium-doped lithium niobate crystals, are electro-optic crystals with excellent overall properties. MgO-doped LN (typical doping: 5%) was developed to reduce the optical folding effect of the intrinsic material and thus can be used for higher energy applications. MgO: LiNbO3 has special advantages for NCPM SHG, hybrid SFG, and optical parametric oscillators of Nd: Laser and thus has applications in OPO, OPA, quasi-phase-matching multipliers, and integrated waveguides. MgO: LiNbO3 electro-optic crystals have unique advantages over LiNbO3 crystals for NCPM multiplication, mixing, and optical parametric oscillation in Nd-doped lasers, where MgO: LiNbO3 electro-optic crystals can achieve multiplication efficiencies over 65% for pulsed Nd: YAG lasers and 45% for continuous Nd: YAG lasers. crystals are widely used in optical parametric oscillation (OPO), optical parametric amplification (OPA), quasi-phase matching, and integrated optical waveguides.
Note:
$100 is a deposit, not the final price of the product. Please contact us for price if needed.
FEATURES:
High damage threshold
Wide range of transparency
Excellent EO and NLO performance
Good mechanical and chemical properties
Non-critical phase matching at room temperature
Crystal Specifications
| crystal material | MgO:LiNbO3 |
| Size | Customization |
| Dimensional Tolerance | ±0.1mm |
| Length Tolerance | ±0.2mm |
| Surface Finish | 20/10 S/D |
| Parallelism | <20″ |
| Flatness | <λ/10 @633nm |
| Perpendicularity | <5′ |
| Chamfer | 0.2mm @45° |
| Orientation Tolerance | <10′ |
| Wavefront Distortion | <λ/4 @633nm |
Crystal Properties
| Melting Point | 1255±5℃ |
| Curie Point | 1140±5℃ |
| Mohs Hardness | 5 |
| Density | 4.64g/cm3 |
| Absorption Coefficient | ~0.1%/cm@1064nm |
| Solubility | Insoluble in Water |
| Relative Dielectric Constant | eT11/e0:85 |
| eT33/e0:29.5 | |
| Thermal Conductivity | 38W/m/k@25℃ |
| Transparency Range | 420-5000nm |
| Refractive Index | ne=2.146,no=2.220@1300nm |
| ne=2.156,no=2.322@1064nm | |
| ne=2.203,no=2.286@632.8nm | |
| Optical Uniformity | ~5 ×10-5/cm |
| Sellmeier Equation | no2(λ)=4.9048+0.11768/(λ2-0.04750)-0.027169λ2 |
| ne2(λ)=4.5820+0.099169/(λ2-0.04443)-0.021950λ2 | |
| Electro-optic Coefficient | YT33=32pm/V,YS33=31pm/V |
| YT31=10pm/V,YS31=8.6pm/V | |
| YT22=6.8pm/V,YS22=3.4pm/V | |
| Half-wave Voltage(DC) | 3.03KV |
| Damage Threshold | 200MW/cm2(10ns) |
Spectrum
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