Litcius/Paper detail

Exchange of orbital angular momentum of light via noise-induced coherence

Seyyed Hossein Asadpour, Ziauddin Ziauddin, Muqaddar Abbas, Hamid Reza Hamedi

2022Physical review. A/Physical review, A38 citationsDOI

Abstract

The noise-induced coherence created via the quantum interference of incoherent radiation in atomic three-level systems of V and \ensuremath{\Lambda} types driven by a pair of weak laser pulses is shown to result in exchange of optical vortices. In the three- level V-type atom-light coupling the system is populated in its ground level, while in the \ensuremath{\Lambda} model the system is initially prepared in an electromagnetically induced transparency state. By solving the quantum optical Maxwell-Bloch equations and with quantum interference of incoherent radiation present, we show that the orbital angular momentum (OAM) of the vortex probe beam can be transferred to a generated signal field. While the exchange efficiency in the V configuration is higher, the losses are less in the \ensuremath{\Lambda} scheme when we consider such a noise-induced coherence. We further discuss the effects of phase mismatching and inhomogeneous broadening on the energy conversion between light beams carrying OAM.

Topics & Concepts

PhysicsElectromagnetically induced transparencyCoherence (philosophical gambling strategy)Orbital angular momentum of lightAngular momentumAngular momentum couplingLambdaAtomic physicsQuantum noiseAtomic coherenceTotal angular momentum quantum numberQuantumQuantum mechanicsOpticsLaserQuantum optics and atomic interactionsOrbital Angular Momentum in OpticsCold Atom Physics and Bose-Einstein Condensates