We study the optical response of a four-level double-V-type quantum system which interacts
simultaneously with probe and pump laser fields and is located near a two-dimensional …

In this study, we introduced a model utilizing a plasmonic nanostructure to modulate the
entanglement between atoms and photons within a V-type atomic medium. This system is …

We present a theoretical study of the resonance fluorescence of a four-level double-V-type
quantum emitter near a plasmonic nanostructure. The quantum system interacts with two …

By studying the linear and nonlinear properties of four-level quantum system near plasmonic
nanostructure (PS), it is realized that the diffraction efficiency of weak probe light can be …

We investigate the atom–photon entanglement between a four-level double V-type quantum
system and a linearly polarized field near a plasmonic nanostructure in the presence of a …

We have theoretically studied the Goos–Hänchen (GH) shifts of both the reflected and
transmitted probe beams emerging from a cavity consisting of a hybrid system of a coupled …

In this article we proposed a new model based on carbon-nanotube quantum dot (CNT QD)
nanostructure for controlling the Goos-Hänchen (GH) shifts in reflected and transmitted light …

We present a new technique for the study of hybrid collections of quantum emitters (atoms,
molecules, quantum dots) with nanoparticles. The technique is based on a multiple …

In this study, we explore the role of plasmonic nanostructure on Goos–Hänchen (GH) shifts
of the reflected and transmitted probe beams. We suppose that the intracavity medium is …

The impact of spontaneously generated coherence (SGC) on the Goos–Hänchen (GH) shifts
of transmitted and reflected light beams from a cavity with a four-level rubidium atom with a …