@article{Naseri_2023, title={Electromagnetically induced grating in semiconductor quantum dot and metal nanoparticle hybrid system by considering nonlocality effects}, volume={14}, url={https://oiccpress.com/journal-of-theoretical-and-applied-physics/article/electromagnetically-induced-grating-in-semiconductor-quantum-dot-and-metal-nanoparticle-hybrid-system-by-considering-nonlocality-effects/}, DOI={10.1007/s40094-020-00373-6}, abstractNote={AbstractThe optical polarization from a hybrid system including a closely spaced spherical SQD (modeled as a three-level V-type system) and a metal nanoparticle which are considered classically and are connected by the dipole–dipole interaction mechanism is investigated. The interaction between the SQD and the MNP shows an interesting optical response. In the weak probe field regime and MNP nonlocality correction, the absorption spectrum of the hybrid system exhibits an EIT window with two absorption peaks and the plasmon-assisted quantum interference plays an important role in the position and amplitude of these peaks, which are intensely altered by including the nonlocal effects. The probe diffraction grating is created based on the excitons-induced transparency by applying a standing-wave coupling field. The results of this study are useful in numerous areas of all-optical communications.}, number={2}, journal={Journal of Theoretical and Applied Physics}, publisher={OICC Press}, author={Naseri, Tayebeh}, year={2023}, month={Nov.}, keywords={Electromagnetically induced grating (EIG), Hybrid system, Metal nanoparticles (MNP), Nonlocality, Semiconductor quantum dot (SQD)} }