Litcius/Paper detail

Exchange of optical vortices in symmetry-broken quantum systems

Seyyed Hossein Asadpour, Emmanuel Paspalakis, Hamid Reza Hamedi

2021Physical review. A/Physical review, A55 citationsDOI

Abstract

We investigate the interaction of laser pulses carrying orbital angular momentum (OAM) with a symmetry-broken ladder-type quantum coupling scheme involving three internal states. A weak probe beam acts on the lower leg of the ladder scheme, while a control beam of higher intensity drives the upper leg. In contrast to natural atoms, such a model with broken symmetry allows generating a sum-frequency signal beam between the most upper and lower quantum states, forming a cyclic closed-loop configuration of light-matter interaction. We propose situations for the efficient transfer of optical vortices to the generated signal beam via a nonlinear three-wave mixing process. It is demonstrated that the exchange process can occur both in the electromagnetically induced transparency (EIT) and the Autler-Townes splitting (ATS) regimes. The transition between the EIT and ATS conversion schemes can smoothly happen by simply tuning the knob of the control field. It is shown that the ATS regime is considerably more favorable than the EIT to achieve maximum energy conversion efficiency between light beams carrying the OAM. The results may provide an applications-based perspective to the ongoing research centered on vortex conversion-based comparisons between the ATS and EIT.

Topics & Concepts

PhysicsElectromagnetically induced transparencyAngular momentumSignal beamSymmetry (geometry)VortexQuantumBeam (structure)Light beamQuantum mechanicsOpticsMathematicsGeometryThermodynamicsQuantum optics and atomic interactionsOrbital Angular Momentum in OpticsQuantum Information and Cryptography