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B. Willke, Mar 01 LIGO-G010114-00-Z Laser Developement for Advanced LIGO Benno Willke LSC meeting LIGO-Livingston Site, Mar 2001.

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Presentation on theme: "B. Willke, Mar 01 LIGO-G010114-00-Z Laser Developement for Advanced LIGO Benno Willke LSC meeting LIGO-Livingston Site, Mar 2001."— Presentation transcript:

1 B. Willke, Mar 01 LIGO-G010114-00-Z Laser Developement for Advanced LIGO Benno Willke LSC meeting LIGO-Livingston Site, Mar 2001

2 B. Willke, Mar 01 LIGO-G010114-00-Z LIGOII PSL – requirements Fourier Frequency (Hz) Frequency Noise Spectral Density (Hz/Hz 1/2 ) 10 1001 1k10 -1 10k10 -2 Fourier Frequency (Hz) Power Noise Spectral Density (1/Hz 1/2 ) 1010 -6 10010 -7 1k10 -7 10k10 -7 25MHz technical noise <10% shot noise of 1W 180W in gausian TEM 00 mode less than 10W in non - TEM 00 modes

3 B. Willke, Mar 01 LIGO-G010114-00-Z LIGOII PSL – subsystem layout front end power stages mode cleaner pre- mode cleaner reference cavity long baseline cavities 20W 200W 180W frequency stabilization power stabilizaiton

4 B. Willke, Mar 01 LIGO-G010114-00-Z LIGOII PSL – project stages develop concepts design and build laboratory version design and build final version PSL fabrication PSL installation

5 B. Willke, Mar 01 LIGO-G010114-00-Z develop concepts increase power of front-end evaluate high-power-stage concepts –MOPA slab (Stanford) –stable-unstable slab oscillator (Adelaide) –rod systems (Hannover) test power and frequency stabilization schemes

6 B. Willke, Mar 01 LIGO-G010114-00-Z Laser for GEO600: Injection Locked Ring Laser

7 B. Willke, Mar 01 LIGO-G010114-00-Z Nd:YAG Master-Laser NPRO (non-planar ring oscillator) by Innolight* output power: 800mW frequency noise: [ 10kHz/f ] Hz/sqrt(Hz) power noise: 10 -6 /sqrt(Hz) * US dristibution: Resonant optics Corp., San Martin CA

8 B. Willke, Mar 01 LIGO-G010114-00-Z Laser for GEO600: Injection Locked Ring Laser

9 B. Willke, Mar 01 LIGO-G010114-00-Z GEO 600 Slave Laser

10 B. Willke, Mar 01 LIGO-G010114-00-Z GEO 600 Slave Laser Prototype II Frequency Stability

11 B. Willke, Mar 01 LIGO-G010114-00-Z Power Scaling of End Pumped Nd:YVO 4 Advantages of Nd:YVO 4 1) amplifies 1064 nm emission of Nd:YAG (basic requirement) birerefingence n a = 1.96 / n c = 2.17  no depolarization emission  || = 25x10 -19 cm -2   = 7x10 -19 cm -2  polarized emission large product of  ||  sp (  sp  90  s)  loss insensitive high gain lasers 8 nm broad absorption @ 808 nm  low requirements on pump diodes Disadvantage of Nd:YVO 4 1) low pump intensity damage threshold 58 W / mm 2 @ 0.5 % doping 29 W / mm 2 @ 1.0 % doping increased by 50 % by undoped endcaps 1) Data from Y.-F. Chen, IEEE J. Q. E. 35(2), 234 (1999) / Tsunekane et. al. Elt. Lett. 32(1), 41 (1996) / VLOC, Casix, Castech web pages

12 B. Willke, Mar 01 LIGO-G010114-00-Z Stanford MOPA design

13 B. Willke, Mar 01 LIGO-G010114-00-Z results Stanford Jan01 12W injection locked laser was shipped to Stanford and showed stable operations 27W stable operation of first ampl. stage some fluid (oil ?) developed on the entrance surface of second ampl. slab and degraded its performance for powers above 35W

14 B. Willke, Mar 01 LIGO-G010114-00-Z Adelaide 100W configuration

15 B. Willke, Mar 01 LIGO-G010114-00-Z design and build lab-version design reliable laser heads for power stages include suitable actuators in laser design integrate stabilized front-end, high- power-stages and pre-modecleaner design power stabilization (in-loop test)

16 B. Willke, Mar 01 LIGO-G010114-00-Z design and build final version optimize design according to lessons learned with lab-version and including system aspects like reliability, safety, robustness, automation and system interfaces (DAQ, power, cooling,...) keep flexibility to react on long-term behavior of lab-version

17 B. Willke, Mar 01 LIGO-G010114-00-Z PSL fabrication & installation quality check system integration (if components are fabricated at different locations) reproducibility user training

18 B. Willke, Mar 01 LIGO-G010114-00-Z Laser Zentrum Hannover Max-Planck Institut University of Glasgow University of Hannover GEO600 pre-stabilized laser High-power solid- state-lasers design power and frequency stabilization LIGOII pre-stabilized laser LIGO Lab Stanford Adelaide the LIGOII laser-team

19 B. Willke, Mar 01 LIGO-G010114-00-Z LIGOII laser-team 4 FTE Laser Zentrum Hannover – Fallnich, Ralf, Ivo, Mike, Martina 1 FTE Stanford - Rutherford 1 FTE Adelaide - Veitch 3 FTE University Hannover/Max-Planck-Group – Willke, Kirchner, Weidner, Nagano 1 FTE Glasgow –Ward, Robertson 1 FTE LIGO –King, Abbott workshop support Hannover / CDS

20 B. Willke, Mar 01 LIGO-G010114-00-Z LIGOII Laser – project plan concept phase (100W)Jan01 - Apr02 lab-version phase (200W)Apr02 – Feb04 longterm test (Hannover/LASTI)Feb04 – Feb 05 final version phaseFeb04 – Jul05 installation PSL1Jul05 – Feb06 fabr. & inst. PSL2&3 Feb06 –Oct06

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