Radar Returns from the Sea Surface—Bragg Scattering and Breaking Waves

Abstract

Abstract Recent ideas on the structure of the equilibrium range of wind-generated ocean waves are applied to the question of radar backscattered returns from the sea surface. It is shown that the backscattering cross section can be represented as the sum of separate contributions from Bragg-scattering and from individual breaking events:where θ is the angle of incidence, ϕ is the direction of observation relative to the wind, u* is the friction velocity and κ the radar wavelength; the Bragg-scattering contribution increases linearly with u* and the sea spike contribution cubically. The number of sea spikes per unit time per unit surface area for a given threshold of spike intensity or duration is proportional to g−1u*3. Calibrated radar measurements of median values of σ0, which tend to suppress sea spike contributions, have been made by Guinard et al. over a range of radar wavelengths from 70 to 3.4 cm. These scale consistently with the parameter (u*2κ/g)½ over angles of incidence greater than 30°, and a...