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High Damage Threshold: Suitable for high power laser applications.
Low Insertion Loss: Ensures efficient light transmission.
High Extinction Ratio: Provides excellent modulation depth.
Minimal Piezoelectric Ringing: Reduces signal distortion at high repetition rates.
Temperature Endurance: Maintains performance across a wide temperature range.
Applications: High Repetition Rate Q-Switching, Pulse Picking, Laser Cavity Dumping, Regenerative Amplifier Control, Beam Chopper, etc.
DKDP (deuterated potassium dihydrogen phosphate) or KD*P crystals are renowned for their high electro-optic coefficients due to their deuterium content. This results in excellent electro-optic conversion efficiency, making them ideal for Pockels cells and Q-switch applications. These crystals exhibit good in the range of 0.3 to 1.1 μm.
Feature:High electro-optic coefficient, Wide transmission range, Low capacitance and fast rise time, High deuteration (>98%), High transmission and extinction ratio
Application:Pockels cel, Q switch, High-power laser
Electro-Optic Characteristics: Large electro-optic coefficients make these crystals ideal for Q-switches and phase modulators.
Non-Deliquescence: Maintains stability in different environments.
Transmission Range: Good transmission up to 4.0 µm.
Low Half Wave Voltage: Operates efficiently at lower voltages in the transverse mode compared to KD*P Pockels cells.
High Damage Threshold: Especially when doped with MgO, increasing resistance to damage.
Applications: Electro-Optical Modulators, Q-Switches, Phase Modulators, Pockels Cells, etc.
High Damage Threshold: 600 MW/cm² at 10 ns, 10 Hz at 1064 nm.
Large Nonlinear Optical and Electro-Optical Coefficients: Enhances performance in modulation and nonlinear optical processes.
No Piezoelectric Ringing: Ensures stable operation without signal distortion.
Low Half-Wave Voltage: Efficient and low-voltage operation.
Applications: High-Power Lasers, Laser Ranging and Laser Radar, Medical Lasers, Industrial Manufacturing, Laser Power/Phase Modulation, Pulse Picking, etc.