-
Supplier: HG Optronics, Inc.
Description: LiNbO3 is widely used as electro-optic modulators and Q-switches for Nd:YAG, Nd:YLF and Ti:Sapphire lasers as well as modulators for fiber optics. Descriptions: Lithium niobate (LiNbO3, LN) is a multi-purpose material in photonics and optoelectronics fields. It features
- Damage Threshold: 750000 W/cm²
- Features: AR-Coated
- Material: LiNbO3
- Refractive Index: 2.2 to 2.29 n
-
Supplier: Analog Devices, Inc.
Description: . Applications 40 Gb/s Lithium Niobate/Mach Zender Fiber Optic Modulators Broadband Gain Block for Test & Measurement Equipment Broadband Gain Block for RF Applications Military & Space
- Amplifier Type: Other
- Frequency Range: 0.0 to 43000 MHz
- Maximum Gain: 14 dB
- Maximum Operating Voltage: 5 volts
-
Supplier: OFS
Description: 1550 fiber is made specifically for use with premium photonic devices such as phase-sensitive Lithium Niobate Modulators. Used as a source laser pigtail, TruePhase 1550 fiber preserves the coherence of emitted laser light. Devices at 1550 nm which use longer
- Fiber Mode: Single Mode
- Fiber Type: Bare Fiber, Polarization Maintaining
- Maximum Attenuation: 0.5000 dB/km
- Operating Temperature: -40 to 85 C
-
-
Supplier: Electro Optical Components, Inc.
Description: Unlike the EM500 range of Pockels cells, the transverse field Pockels cells can be made in a more flexible range of sizes and in a greater choice of materials. The construction usually consists of either one Z-cut crystal in the case of lithium niobate, or two X or Y cut crystals,
- Q-switch Type: Electro-optic
- Wavelength Range: 458 to 1064 nm
Find Suppliers by Category Top
Featured Products Top
-
Introduction Based on the quasi-phase matching theory (QPM), the nonlinear optical crystal Lithium Niobate is made into a periodically inverted domain structure, called Periodically Poled Lithium Niobate (PPLN), to compensate for phase mismatch (read more)
Browse Optical Crystals Datasheets for CASTECH, Inc. -
world of possibilities with LiNbO3, widely recognized for its applications in electro-optic modulation, Q-switching, optical parametric oscillators (OPO), and quasi-phase-matched devices using periodically poled lithium niobate (PPLN). Key Features and Advantages: (read more)
Browse Optical Crystals Datasheets for HG Optronics, Inc. -
) Crystals, Lithium Iodate (LiIO3) Crystals, LiNbO3 (Lithium Niobate)/MgO: LiNbO3 Crystals, RTP Crystals, and ZnGeP2 (ZGP) Crystals. The nonlinear crystals feature laser-grade polished with high geometric precision/flexible coating options, and a wide transmission range covering Ultra Violet to Infrared (read more)
Browse Laser Optics, Heads, and Beam Delivery Components Datasheets for Hangzhou Shalom Electro-optics Technology Co., Ltd.
More Information Top
-
An optical homodyne instrument for simultaneously measuring the dual‐wavelength optical phase variations
R.C. Twu, H.Y. Hong, and H.H. Lee, An optical homodyne technique to measure photorefractive-induced phase drifts in lithium niobate phase modulators , Opt Express 16 (2008), 4366–4374.
-
A simple instrument for measuring the light‐induced birefringence in a photorefractive crystal
R.C. Twu, H.Y. Hong, and H.H. Lee, An optical homodyne tech- nique to measure photorefractive-induced phase drifts in lithium niobate phase modulators , Opt Express 16 (2008), 4366–4374.
-
Scale Factor Error Considerations In The Fiber Optic Gyro
A ramp waveform can be generated by charging the capacitance of the lithium niobate phase modulator with a current proportional to rate.
-
Ultra-low noise optical phase-locked loop
To further increase the locking loop bandwidth to several MHz, a second tuning mechanism is used by adding a Lithium Niobate phase modulator in the laser signal path.
-
Hybrid integration of fiber optic gyroscopes operating in harsh environments
2.4 Lithium niobate phase modulator chip .
-
Beam steering by phase control based on lithium niobate in laser phased array
2.1 Lithium niobate phase modulator .
-
Millimeter-wave imaging using optical upconversion detectors
In our detector, the collected millimeter-wave energy is converted to sidebands on an optical carrier by means of a non-linear optical media, typically embodied in the form of a lithium niobate phase modulator .
-
Polarisation-independent intensity modulator based on lithium niobate
Broadband, polarisation-independent intensity modulation based on a lithium niobate phase modulator in a fibre Sagnac interferometer configuration is demonstrated.
-
Speedy computation of time-domain Green's function for microstrip structures
Broadband, polarisation-independentintensity modulation based on a lithium niobate phase modulator in a fibre Sagnac interferometer configuration is demonstrated.
-
A 1.55-μm solid-state laser source for DWDM applications
For long-haul spans an intracavity lithium niobate phase mod- ulator allows for chirping of the linewidth to bandwidths and at rates sufficient to defeat stimulated Brillouin scattering (SBS).