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Talbot effect in nonparaxial self-accelerating beams with electromagnetically induced transparency

Jingmin Ru, Zhenkun Wu, Yagang Zhang, Feng Wen, Yuzong Gu

2020Frontiers of Physics12 citationsDOI

Abstract

In this study, we report on the fractional Talbot effect of nonparaxial self-accelerating beams in a multilevel electromagnetically induced transparency (EIT) atomic configuration, which, to the best of our knowledge, is the first study on this subject. The Talbot effect originates from superposed eigenmodes of the Helmholtz equation and forms in the EIT window in the presence of both linear and cubic susceptibilities. The Talbot effect can be realized by appropriately selecting the coefficients of the beam components. Our results indicate that the larger the radial difference between beam components, the stronger the interference between them, the smaller the Talbot angle is. The results of this study can be useful when studying optical imaging, optical measurements, and optical computing.

Topics & Concepts

Talbot effectElectromagnetically induced transparencyPhysicsHelmholtz equationOpticsInterference (communication)Helmholtz free energyBeam (structure)Quantum mechanicsChannel (broadcasting)TelecommunicationsDiffractionComputer scienceBoundary value problemQuantum optics and atomic interactionsCold Atom Physics and Bose-Einstein CondensatesOrbital Angular Momentum in Optics
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