power stabilization of the 35w reference system
DESCRIPTION
Power Stabilization of the 35W Reference System. Frank Seifert, Patrick Kwee, Benno Willke, Karsten Danzmann Max-Planck-Institute for Gravitational Physics (Albert-Einstein-Institute) University of Hannover LSC Caltech, March 19th, 2008 LIGO-G08xxxx-xx. 35W Laser Overview. - PowerPoint PPT PresentationTRANSCRIPT
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Power Stabilization of the 35W Reference System
Frank Seifert, Patrick Kwee, Benno Willke, Karsten Danzmann
Max-Planck-Institute for Gravitational Physics(Albert-Einstein-Institute)
University of Hannover
LSC Caltech, March 19th, 2008
LIGO-G08xxxx-xx
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35W Laser Overview
• More details see Saschas talk „ELIGO Laser„ wednesday afternoon
• Design & fabrication by LZH• 2W NPRO seed laser• 4-stage Nd:YVO amplifier• > 35 W output power• Assembled on breadboard in
single housing• AOM, EOM, isolator, and shutter
included• Running 24/7 @ AEI since 12/07
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35W Laser Performance
• More details (spatial profile etc.) see Saschas talk „ELIGO Laser„ wednesday afternoon
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Power Actuators I : AOM
• AOM: Crystal Technology 3080-194• Driver: Landwehr A274-18 (80MHz, 5W max)
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Power Actuators I : AOM (cont.)
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Power Actuators II: LD current
• „Digital modulation“ via Beckhoff @ diode control box• 2 inputs → 2 laser diodes each (in series)• Modulation index adjustable via touch panel• On/Off-control via touch panel• Low speed
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Reference System Setup
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Spatial filtering
• Classical PMC design (only reflectivities changed)
• F≈46 (p-pol) / F≈383 (s-pol)• Locked in s-pol most of the time
since 12/07• higher circulating power as for
the 200W laser system(factor 8.3 between s and p→ 33W x 8.3 = 275W)
• Curved mirror T=20ppm (for power stabilization in-loop PD)
• Small acoustic enclosure
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Reference System Setup (cont.)
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Free Running Noise
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First Results
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First Results (cont.)
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Work In Progress
• Further reduction of beam pointing → shorter beam pathes, beam tubes(?)
• Reduction of scattered light → superpolished mirrors, block ghost beams
• Increasing loop gain and bandwidth
• More in-loop power → (second) in-loop detector behind PMC
• Reduction of particle count → beam tubes (?)
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Other related work
• Photodiode characterization for >500mA detector:- breakdown voltage (dark current vs bias)- linearity- thermal impedance
• Resistor current noise:- 40 different types measured so far (100 Ohm)- higher values next couple of weeks
• New high current photodetector topologies:- lower input referred noise / higher photocurrent without decreasing effective gain
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spare slides
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Resistor Current Noise
10-9
10-8
10-7
10-6
100 101 102 103 104
frequency [Hz]
resistor current noise / 100 / SMD / P<1W / 10V voltage drop
Johnson noise 100, 300K1/ f
Welwyn PCF0805, 0.1%, 5ppmPhycomp TFx13 series, 0.1%, 25ppm
Vishay Beyschlag MMA 0204, 1%, 50ppmVishay SMM0204-MS1, 1%, 50ppm
Vitrom ZC 0204, 1%, 50ppmMira Electronic 1206, 1%, 100ppmMira Electronic 0805, 1%, 100ppm
Yageo RC 0805, 1%, 100ppmYageo RC 1206, 1%, 100ppm
10-9
10-8
10-7
100 101 102 103 104
frequency [Hz]
resistor current noise / 100 / leaded / P<1W / 10V voltage drop
Johnson noise 100, 300K1/ f
Arcol MRA 0207, 0.1%, 15ppmWelwyn RC55Y, 0.1%, 15ppm
Vishay Beyschlag MBB 0207, 0.1%, 25ppmYageo MF0207, 0.1%, 25ppm
Tyco LR1F, 1%, 50ppmVishay Beyschlag MBB 0207, 1%, 50ppm
Yageo MF0207, 1%, 50ppmRamtronics, 1%, ??ppm
Uni-Ohm CFR-25, carbon, 5%, 450ppmVishay S102K, 0.1%, 2ppm
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Power Stabilization Setup
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Results – DC & AC Coupled Loop
Shot noise level 2E-9
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Critical Factors
• very (!) sensitive to ground loops avoid any (!) ground loop, even at RF (capacitive coupling) independent supply of components battery powered devices
• beam pointing reduction by PMC (passive filtering) proper adjustment of photodiodes (minimize with impressed pointing) (PZT behind PMC)
• acoustics shielded environment proper mechanical design
• air currents vacuum
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Photodiode Non-uniformity & Pointing
pointing measurementspatial uniformity measurement
(when) does it limit the performance ?
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Pointing Sensitivity Measurement
EG&G C30642G
3 different methods very good agreement
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Power Fluctuations Due To Pointing
PMC: F=4100
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Low Frequency Noise in PD‘s
• pre-stabilized laser system below 1E-8 level• amplification after substraction of photocurrents• temperature stabilized photodiodes• vacuum tank
Balanced detection setup
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Balanced Detection Setup
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Balanced Detection – First Experiment
first test of balanced detection setup with large area Si photodiodeswithout temperature stabilization:
nearly shot noise limited
unknown noise source
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Balanced Detection – Results (1)
bias voltage dependence:
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Balanced Detection – Results (2)
temperature dependence:
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Balanced Detection – Results (3)
power dependence:
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Low Frequency Limit
:PD low frequency noise limiting ?:
different photodiodes !!
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Photodiode Temperature Measurements
• ∆T only ≈ 10K• real chip temperature ?
P = 0 mW P = 65 mW
P = 130 mWP = 105 mW
PD EG&G C30642Gwithout window