Title :
Sleuthing out gravitational waves
Author :
Lewis, Melvin A.
Author_Institution :
Support Equip. Eng. Dept., Loral Electron. Syst. Inc., Yonkers, NY, USA
fDate :
5/1/1995 12:00:00 AM
Abstract :
The sensing or reception of gravitational waves may deepen the understanding of the dynamics of violent events such as supernovae, exploding black holes, and the interactions between black holes and neutron stars. Because gravitation is 40 orders of magnitude weaker than the Coulomb force, the detection of gravitational waves is a huge challenge to instrument builders. The author describes the pioneering resonant bar detector and its problems, and then describes the laser interferometry approach, and in particular the Laser Interferometry Gravitational-wave Observatory (LIGO). The proposed method of simultaneously monitoring the Doppler shift of the carrier frequency of two or more interplanetary spacecraft in order to detect gravitational waves is also discussed. The problem of sensitivity of gravitational wave detectors and its solution is discussed
Keywords :
Doppler measurement; gravitational wave detectors; light interferometry; nonelectric sensing devices; Doppler shift monitoring; LIGO; Laser Interferometry Gravitational-wave Observatory; carrier frequency; exploding black holes; gravitational waves detection; interplanetary spacecraft; laser interferometry; neutron stars; resonant bar detector; sensitivity; supernovae; Detectors; Doppler shift; Frequency; Instruments; Interferometry; Monitoring; Neutrons; Observatories; Resonance; Space vehicles;
Journal_Title :
Spectrum, IEEE
