The Ocean Wave Dynamo: A Source of Magnetic Ambient Noise

Abstract

The electromagnetic dynamo field of sea surface waves, a consequence of the Lorentz force, has been measured with two simultaneously operating, closely spaced tri-axial magnetometers. Measurements from a magnetometer located in the center of a small, uninhabited island served to compensate measurements from a near-shore magnetometer for large-scale magnetic pulsations (basically of ionospheric origin), leaving the ocean wave dynamo field, effective close to shore only, as the dominant residual magnetic field. Height and period of waves and swell were recorded with a vertical accelerometer (wave rider buoy) floating nearby on the sea surface. Amplitude and phase relationships between the three vector components of the magnetic field differences yield an ocean wave vector consistent with swell propagating northeastward. The magnetic field data further demonstrate that the water mass motion close to shore was not confined to a vertical plane (as would be the case for freely propagating gravity waves in the open ocean). The motion occurred in a plane inclined at about 40 deg from the horizontal (roughly twice the inclination of the island flanks). Ten night-time intervals of three hours each were analysed, and for every interval, the peak power of the surface waves (inferred from the wave rider measurements) was compared with the peak power of the residual horizontal magnetic field (after the background field had been removed). Their ratio yields the height of a hypothetical magnetometer above the surface of the open sea. Not only are the hypothetical heights computed for the ten different intervals similar, they are also approximately equal to the horizontal distance between the shoreline and the site of the near-shore magnetometer.

Document Details

Document Type

Technical Report

Publication Date

Sep 01, 1997

Accession Number

ADA344644

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