Rotational Doppler shift of the phase-conjugated photon

Abstract

The rotational Doppler shift of a photon with orbital angular momentum is shown to be an even multiple of the angular frequency of the reference frame rotation when photon is reflected from the phase-conjugating mirror. We consider the one-arm phase-conjugating interferometer which contains N Dove prisms or other angular momentum altering elements rotating in opposite directions. When such interferometer is placed in the rotating vehicle the δ ω=4 (N+1/2) · rotational Doppler shift appears and rotation of the helical interference pattern with angular frequency δ ω /2 occurs. The accumulation of angular Doppler shift via successive passage through the N image-inverting prisms is due to the phase conjugation, for conventional parabolic retroreflector the accumulation is absent. The features of such a vortex phase conjugating interferometry at the single photon level are discussed.