This article is cited in 16 papers

Wavefront reversal in stimulated light scattering in a focused spatially inhomogeneous pump beam

N. B. Baranova, B. Ya. Zel'dovich, V. V. Shkunov


Abstract: A theoretical analysis is made of stimulated light scattering in a pump beam possessing both fine-structure inhomogeneity (and thus, "gray" divergence) and a continuously varying amplitude and phase envelope due to focusing of the beam with a lens into an unbounded medium. An equation is derived to describe the gain of the pump-reproducing field component, and a solution of this equation, excitable by spontaneous radiation noise, is found in the constant pump field approximation. In this case, the scattered wave is localized in a narrow (compared with the pump wave) near-axial zone and, unlike scattering in a waveguide, the reproduction of the pump wave is partial and dependent on the correlation between the "gray" and diffraction-limited divergence. The disagreement between this theoretical conclusion and the complete reproduction observed earlier experimentally indicates the importance of saturation effects in the scattering of focused beams.

UDC: 535.375

PACS: 42.65.Cq

Received: 25.03.1977

 English version: Soviet Journal of Quantum Electronics, 1978, 8:5, 559–566