Prof. Dr. Benno Willke
Group leader Laser Development & Advanced LIGO
Phone:+49 511 762-2360Fax:+49 511 762-2784

Albert Einstein Institute Hannover

Poject Website

Advanced LIGO

The gravitational wave detector Advanced LIGO (aLIGO) will be more than ten times more sensitive, and over a much broader frequency band, than initial LIGO. GEO600 is a partner in the aLIGO project and contributes the pre-stabilized laser system (PSL) for all Advanced LIGO detectors. Furthermore GEO scientists are involved in the commissioning and operation of the LIGO interferometers.

The Albert Einstein Institute in Hannover carries subsystem responsibility for the Advanced LIGO 200W pre-stabilized laser systems. In 2010-2012, AEI has provided, delivered and installed the laser systems both at the Hanford and Livingston observatory sites. The work on the PSL is split between the Laser Zentrum Hannover which concentrates on the laser development and the AEI which is in charge of diagnostic, control and stabilization of the high power laser system.

The aLIGO PSL consists of a 2W Nd:YAG seed laser which is amplified via a Nd:YVO amplifier stage to 35W. This 35W laser serves as a master laser in an injection-locking scheme to seed a 200W Nd:YAG high power oscillator stage. The output of the high power stage is spatially filtered by a newly developed bow-tie pre-mode cleaner (PMC) resonator which transmits 165W in the fundamental Gaussian mode with only 1 % of the power in higher order modes. The PMC has two auxiliary ports to pick-off beam samples for the power and frequency stabilization. A diagnostic breadboard (DBB) is an integral part of the PSL and allows for a fully automated characterization of the 35W and the 200W laser with regard to temporal and spatial fluctuations and the spatial beam quality.

Since their installation the aLIGO PSLs operate stable and provide reliable light sources for the gravitational wave detectors.

In addition to the lasers at the LIGO site a copy of the 200W PSL is operated in the AEI labs to evaluate the long-term performance of the system and to work on the optimization of system components. Furthermore the highly-stable 165W laser beam is used in several experiments to generate high power beams at different wavelengths and with novel spatial beam profiles.

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