Post on 18-Jan-2016
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Laser system Laser system for LCGTfor LCGT
Norikatsu MIONorikatsu MIO
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Power requirement for LGCT Power requirement for LGCT laser laser
780 W
G=11
75 W150 W
50 %
Laser
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Laser system for LCGTLaser system for LCGT
• 150W Output : Injection locking + MOPA
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Design conceptDesign concept• Injection-locked laser: Stable optical mode
• Power amplifier: Easy operation, Cascadable for higher power operation
Intensity control element
Frequency control element
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Injection locked laserInjection locked laser• Maser laser :2 -W NPRO
– Innolight Mephisto• Slave : 100-W ring laser
– Laser module : Mitsubishi– Resonator and Controller : U-Tokyo
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Laser module Laser module (( MitsubishiMitsubishi ))
Two rods and rotator Diffusive reflector +LD
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Slave laserSlave laser• Ring laser with two laser modules
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Output power of the slave Output power of the slave laserlaser
• 121 W by bidirectional oscillation
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100-W Power laser100-W Power laser
• Injection locking with 2-W master laser (NPRO)
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Realization of single Realization of single frequency oscillationfrequency oscillation
• Scanning Fabry-Perot output
Free
Injection Locking
100-W Single Frequency oscillation by injection locking
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Long term stabilityLong term stability
Continuous operation for more than 6 hours
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MOPA and intensity MOPA and intensity stabilization (test bench)stabilization (test bench)
MasterNPRO
AmplifierFR
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Intensity stabilization Intensity stabilization performanceperformance
Unity Gain freq.30kHz
Loop Gain at 100 Hz 100db
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Ongoing experimentsOngoing experiments• Frequency stabilization of the 100-W laser.• EOM test for high-power laser light.
– MgO-doped Stoichiometric LiNbO3
• Final stage amplifier (50W) will be tested soon.
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Frequency stabilization Frequency stabilization experimentexperiment
• Triangular reference cavity (kHz)• Transmission intensity curve
Feedback system is being developed
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SummarySummary• Basic components for the LCGT laser
have been completed.– 100-W single frequency operation has
been achieved.– Wide range intensity control has been
done by the current-shunt method.• Further experiments for frequency
and intensity control are being performed.