Organic dye molecules have been used in a great number of scientific and technological
applications, but their wider use in quantum optics has been hampered by transitions to …

We show that a broadband Fabry–Perot microcavity can assist an emitter coupled to an off-
resonant plasmonic nanoantenna to inhibit the nonradiative channels that affect the …

We study radiative energy transfer between a donor-acceptor pair across a hyperbolic
metamaterial slab. We show that similar to a perfect lens a hyperbolic lens allows for giant …

Molecules constitute compact hybrid quantum optical systems that can interface photons,
electronic degrees of freedom, localized mechanical vibrations, and phonons. In particular …

Currently, epsilon-near-zero (ENZ) materials have become important for controlling the
propagation of light and enhancing by several orders of magnitude the Kerr and other …

We study a system of two interacting, nonidentical quantum emitters driven by a coherent
field. We focus on the particular condition of two-photon resonance and obtain analytical …

Virtual states are a central concept in quantum mechanics. By definition, the probability of
finding a quantum system in a virtual state should be vanishingly small at all times. In …

The design and preparation of quantum states free from environmental decohering effects is
critically important for the development of on-chip quantum systems with robustness. One …

We propose an all-optical scheme to control the photon statistics using the hybrid quantum
plasmonic system. With the aid of dressed-state-assisted quantum interference effects, it is …

We theoretically investigate a general scheme for determining quantum entanglement of two
detuned quantum dots (QDs) mediated by plasmon nanoparticle for weakly driven …