Table of
Contents
Laser-Diode-Pumped Solid State Lasers (at Q-Peak)
Quick orientation
Outline
What is Q-Peak???
Three Nd Laser Hosts As Choices
MPS Pumping Design
MPS gain module with resonator (MPS-1047)
I/O and Beam Properties
MPS-1047 Laser System photo
Production data on MPS gain module
High-power, MPV (Nd:YVO4) gain module
MPV (Nd:YVO4 ) Oscillator CW Efficiency
Nd:YVO4 Slab CW Amplifier Performance
MPS (Nd:YLF) and MPV (Nd:YVO4) pulse energy vs. rate
MPS and MPV pulsewidth vs. rate
MPS and MPV peak power vs. pulse rate
1342 nm Nd:YVO4 Oscillator Q-Switched Performance
MPS MOPA system #1 generates 37 W cw
MPS MOPA system #2 generates 50 W cw
MPS MOPA Design #3; Single Gain Module Oscillator,
Four Amplifiers
MPS MOPA #4: Single Frequency Oscillator Schematic
MOPA #4: Amplifier stages
MPV Nd:YVO4 MOPA System
Nd:YVO4 MOPA Results
Nd:YLF harmonic conversion generates visible, UV
power (with Ushio)
SHG theory with LBO doubler results
MPS-based 349-nm commercial product
Development of solid state DUV sources
MPS-based DUV source
OPO-based RGB source driven by MPS
Cover story!
IR parametric oscillator systems
Data on IR OPOs pumped by MOPA system
Tuning curve for MPS-driven KTA OPO
Highly efficient MPS-pumped Ti:sapphire
High-pulse-rate, tunable IR source
Conclusions
Challenges for nonlinear materials |
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Author: Peter F. Moulton
Email: moulton@qpeak.com
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