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A Proposal for Establishing A Gravitational-Wave Detector Interferometer in Pakistan
Authors:S.Z. Farooqui  M. Karim  N. Kawashima  A. Qadir  H. Rehman
Affiliation:(1) Space Science Division, SUPARCO, P.O. Box 8402, Karachi-, 75270, Pakistan;(2) St.John Fisher College, Rochester, New York, USA;(3) Institute of Space and Astronautical Sciences (ISAS), 3-1-1 Yoshinodai, Sagamihara, Kanagawa, Japan;(4) Department of Mathematics, Quaid-i-Azam University, Islamabad, Pakisatan;(5) Institute of Geophysics and Planetary Physics (IGPP), University of California at Riverside (UCR), Riverside, California, USA
Abstract:The proposed ‘Gravitational-Wave Antenna Detector InteRferometer (GWADIR)’ will be a 3 km × 3 km Fabry-Perot type laser interferometer. The laser oscillator to be used will be a DL excited Nd-YAG laser with a minimum output of 100 Watts. The optical system will consist of 25 cm diameter Recycler, Beam Splitter, and Near/End Mirrors for each of two Ducts. The mirror system will be suspended by fine wires to isolate the system from the seismic noises of the earth. The output light emerging from the interferometer will be split into 8 beams and sent to 8 different interference detectors. These detectors will measure the interference intensities for the recombined light from the separate legs of the interferometer. The effective amplification due to the interferometer cavities will allow measurements of displacements to better than 10 times the wavelength of the laser light. A high vacuum of 10-8 Torrs will be maintained throughout the system, using turbo-molecular and ion pumps. The detector is designed to reach strain sensitivities from gravitational sources of h<10-23 (Hz)- 1/2 with a broad-band and narrow-band measurement capability in the range of frequencies from 50 Hz to 10 4 Hz, thus allowing it to detect ‘standard’ signals from such sources as coalescing neutron stars or black-holes out to the edge of the universe. If enough funding became available, the project is expected to complete by the middle of the next decade. This revised version was published online in July 2006 with corrections to the Cover Date.
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