Quantum plasmonics is a rapidly growing field of research that involves the study of the
quantum properties of light and its interaction with matter at the nanoscale. Here, surface …

Interactions induced by electromagnetic fluctuations, such as van der Waals and Casimir
forces, are of universal nature present at any length scale between any types of systems …

As the size of a molecular emitter becomes comparable to the dimensions of a nearby
optical resonator, the standard approach that considers the emitter to be a point-like dipole …

With the recent successes of neural networks (NN) to perform machine-learning tasks,
photonic-based NN designs may enable high throughput and low power neuromorphic …

An anisotropic quantum vacuum (AQV) opens novel pathways for controlling light-matter
interaction in quantum optics, condensed matter physics, etc. Here, we theoretically …

We conduct theoretical and numerical studies of the performance of a 2D
electromagnetically induced grating in a 4-level quantum system, which is situated near a …

We have investigated the second-harmonic generation (SHG) and dipole–dipole interaction
in a quantum dot and metallic nanoparticle hybrid system. A strong probe field is applied to …

We consider interaction of a pair of counterpropagating spatially inhomogeneous weak
vortex beams with a quantum emitter that has a double-V level scheme and closely situated …

Publisher Summary Atoms commonly do not act as isolated objects, but rather are open
quantum systems, as they interact with the environment. Typically, this environment is …

We perform a detailed analysis of electronic polarizability of graphene with different
theoretical approaches. From Kubo's linear response formalism, we give a general …