We provide a complete quantitative theory for light emission from Drude metals under
continuous wave illumination, based on our recently derived steady-state nonequilibrium …

A quasinormal mode (QNM) coupling theory is proposed for a system of coupled resonators.
The theory is generally applicable to systems with energy loss and arbitrary frequency …

Understanding the unresolved connection between a structured environment and Förster
resonance energy transfer (FRET) is critical in the realm of quantum light–matter …

In several publications, it has been shown how to calculate the near-or far-field properties for
a given source or incident field using the resonant states, also known as quasi-normal …

We investigate the phenomenon of quantum interference in spontaneous emission for a
three-level V-type quantum emitter placed between two bismuth-chalcogenide (Bi 2 Te 3, Bi …

For a long time, the point-dipole model was a central and natural approximation in the field
of photonics. This approach assumes that the wavelength is much larger than the size of the …

Modal expansion is an attractive technique for solving electromagnetic scattering problems.
With the one set of resonator modes, calculated once and for all, any configuration of near …

Partial differential equations are frequently solved using a global basis, such as the Fourier
series, due to excellent convergence. However, convergence becomes impaired when …

The electromagnetic scattering resonances and modes of a nonmagnetic object much
smaller than the incident wavelength in vacuum can be either described by the …

Rapid advancements in nanotechnology have allowed for the characterization of single
molecules by placing them in the vicinity of nanoplasmonic structures that are known to …