We show how phase-sensitive manipulation of a probe field transmission spectrum can be
used to find the precise position of an atom. Our method is based on the controlled …

We have theoretically investigated two-dimensional atom localization using the absorption
spectra of birefringence beams of light in a single wavelength domain. The atom localization …

We present an efficient two-dimensional atomic localization in a tripod-type four-level atomic
medium using standing-wave fields. The localization behavior is significantly improved, and …

In this paper, we have theoretically examined and modified the spectral hole burning (SHB)
in a tripod-type four-level Doppler broadened atomic medium. We have investigated a …

Tunnelling based birefringent rotary photon dragging through induced chiral medium -
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We theoretically investigate two-dimensional (2D) atomic microscopy by the superposition of
three probe coherences and three standing-wave fields in a five-level atomic system. For the …

Abstract The two-dimensional (2D) atomic localization is theoretically investigated via
tunable surface plasmon polaritons (SPPs), generated on the metal (Ag) surface coupled to …

Herein, we propose a scheme for the realization of two-dimensional atomic localization in a
λ-type three-level atomic medium such that the atom interacts with the two orthogonal …

Here, we investigate the structured superluminal and subluminal light propagation in the
medium generated through a five-level atomic configuration controlled by a tiny probe and …

In this study we theoretically demonstrate ultrahigh-resolution two-dimensional atomic
localization within a three-level λ-type atomic medium via superposition of asymmetric and …