Audiofrequency vibrations and gravity-wave detectors

Details Audiofrequency vibrations and gravity-wave detectors Audiofrequency vibrations and gravity-wave detectors

Dec 1974

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1974natur.252..638f&link_type=abstract

Nature, vol. 252, Dec. 20-27, 1974, p. 638-640.

Computer Science

Sound

1

Aluminum Alloys, Audio Frequencies, Gravitational Waves, Radiation Detectors, Vibration Mode, Elastic Properties, Microstructure, Plastic Deformation, Residual Stress, Systems Engineering

Scientific paper

Non-elastic audiofrequency vibrational modes in aluminum and other metals are suggested as a possible reason for the differences reported by various observers using large aluminum alloy bars (or disks) as gravity-wave detectors. Loading of suspended gravity-wave detector bars resulting from the gravitational attraction of the earth is also sufficient to produce the small stresses required for the self-generation of audiofrequency sounds (acoustic emission) in materials. Both the non-elastic mode response and acoustic emission frequencies depend critically on the exact microstructure and/or residual stress state of a bar.

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