Lithium Niobate (LiNbO3) | Impex-High Tech GmbH

Lithium Niobate (LiNbO₃)

Material

LiNbO₃

Lithium Niobate (LiNbO₃) possesses a combination of unique electro-optical, acoustic, piezoelectric, photoelastic and non-linear optical properties with exhibiting mechanical and chemical stability.

Lithium Niobate is strongly birefringent, lacks inversion symmetry and displays Pockels effect. Its birefringence is highly temperature dependent, that’s why accurate heating of the crystal can be used to achieve phase matching in the medium. It possesses large effective non-linear, electro-optic and acousto-optic coefficients.

Lithium Niobate is commonly used in electro-optical, acousto-optical and non-linear optical devices, Pockels cells, optical parametric oscillators, optical switches for gigahertz frequencies, high-temperature acoustic transducers, receivers-transmitters of acoustic vibrations, laser frequency doubling, Q-switching devices for lasers.

The transverse modulation is mostly employed for LiNbO₃ crystal for using as frequency doubler for wavelength >1 µm and optical parametric oscillator (OPO) pumped at 1064 nm as well as quasi-phase-matched waveguide doublers.

Typical Applications/Devices for Lithium Niobate products:
SHG und OPO pumped by Nd:YAG laser
Electro-optical devices
SAW (surface acoustic wave) devices

Eigenschaften

Optical Property

Transmission Range, µm	0.32 – 5.60
Refractive Index, at 1300 nm	n_e= 2.146 n_o = 2.220
Reflection Loss, %	26.57 24.71
Optical Homogeneity, 1/cm	5 x 10^-5
NLO Coefficients, pm/V	d₃₃ = 34.40 d₃₁ = d₁₅ = 5.95 d₂₂ = 3.07
Damage Threshold, MW/cm² at 10 ns	200
Efficiency NLO Coefficients, pm/V	d_eff= 5.7 for frequency doubling 1300 nm d_eff = 5.3 for OPO pumped at 1300 nm d_eff = 17.6 for quasi-phase-matched structure
Absorption loss, %/cm at 1064 nm	< 0.1

Physical Property

Density, g/cm³	4.64
Solublity	insoluble in H₂O
Type of Material	Single crystal, synthetic
Crystal Structure	Trigonal, space group R_3c
Melting Point, +/- 5 °C	1255
Thermal Conductivity, W/(m · K) at 25 °C	38
Thermal Expansion, 1/°C at 25 °C	2.0 x 10^-6
Mohs Hardness, indenter load 600g	5
Curie Point, +/- 5 °C	1140
Relative Dielectric Constant, T11/e0:	85.0
Relative Dielectric Constant, T33/e0:	29.0
Absorption Coefficient, %/cm at 1064	0.1
Specific Heat Capacity, J/(kg · K)	628
Dielectric Constant, at 100 KHz	ε_a = 85 ε_a = 29
Elastic Coefficient, GPa	C₁₁ = 203.0 C1₂ = 57.3 C₁₃ = 75.2 C₁₄ = 8.5 C₃₃ = 242.4 C₄₄ = 59.5 C₆₆ = 72.8
Spektrale Eigenschaften

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