We investigate the dynamical evolution of the spontaneous emission of a two-level quantum emitter near a graphene nanodisk. We employ the macroscopic quantum electrodynamics …
Energy transfer (ET) between quantum emitters is a key process for many scientific domains and technological applications, and can be influenced by strategic placement of appropriate …
We investigate the spontaneous emission properties of a V-type quantum emitter when interacting with either a graphene monolayer or a single-wall carbon nanotube. Quantum …
In this paper, we present a theoretical investigation of the energy transfer efficiency between a pair of quantum emitters placed in proximity to a conducting graphene nanodisk. The …
Nanonntennas are critical elements of nanoscale wireless communication technologies with potential to overcome some of the limitations of on-chip interconnects. In this paper, we …
The total spontaneous emission rate of a quantum emitter in the presence of an infinite MoS 2 monolayer is enhanced by several orders of magnitude, compared to its free-space value …
M Cuevas - Superlattices and Microstructures, 2018 - Elsevier
The present work deals with a theoretical research on the emission and radiation properties of a dipole emitter source close to a dimer graphene plasmonic antenna. Modification of the …
We study the problem of fast spin initialization for a quantum dot in the Voigt geometry by placing it near a graphene layer. We calculate the spontaneous emission rates of the …
We investigate the spontaneous emission dynamics of a two-level quantum emitter near a transition-metal dichalcogenide layer, specifically, a tungsten disulfide (WS 2) layer. The …