Litcius/Paper detail

Two-dimensional electromagnetically induced phase grating via composite vortex light

Seyyed Hossein Asadpour, Hamid Reza Hamedi, Teodora Kirova, Emmanuel Paspalakis

2022Physical review. A/Physical review, A60 citationsDOI

Abstract

We investigate the performance of a symmetrical two-dimensional electromagnetically induced grating produced in a four-level $N$-type atomic scheme, which interacts with a weak probe field and two simultaneous coupling fields: a two-dimensional standing wave and a composite optical vortex beam. Based on the Maxwell wave equation, we study numerically the behavior of the amplitude, the phase modulations, as well as the probe field diffraction intensities of different order under various conditions for the coupling field detunings and the orbital angular momentum of the Laguerre-Gaussian field. The different orders of diffraction are altered when the azimuthal angle of the composite vortex light changes, thus producing a two-dimensional symmetric grating which transfers the probe energy to higher orders of diffraction. A detailed analysis of the probe field energy transfer to these different orders proves the possibility for direct control over the performance of the grating.

Topics & Concepts

PhysicsDiffractionOpticsGratingOptical vortexAmplitudeElectromagnetically induced gratingField (mathematics)VortexPhase (matter)Angular momentumDiffraction gratingBlazed gratingBeam (structure)Quantum mechanicsThermodynamicsMathematicsPure mathematicsQuantum optics and atomic interactionsCold Atom Physics and Bose-Einstein CondensatesOrbital Angular Momentum in Optics