Advanced photonic nanostructures are currently revolutionizing the optics and photonics
that underpin applications ranging from light technology to quantum-information processing …

Photonic nanostructures provide a means of tailoring the interaction between light and
matter and the past decade has witnessed tremendous experimental and theoretical …

The energy resolution per bandwidth ER is a figure of merit that combines the field
resolution, bandwidth or duration of the measurement, and size of the sensed region …

A reduction in the number of loss decay channels present in optical nanoantennas could
help enhance an emitter's radiation efficiency. These losses get amplified for emitters in …

Electric dipole radiation can be controlled by engineering of the photonic environment. A
coherent interaction between forward and backward emission depends interferometrically …

Polarizing electron beams using light is highly desirable but exceedingly challenging, as the
approaches proposed in previous studies using free-space light usually require enormous …

Spontaneous emission of quantum emitters can be modified by their optical environment,
such as a resonant nanoantenna. This impact is usually evaluated under assumption that …

Magnetic fluids were historically the first active nano-dispersion material. Despite over half a
century of research, interest in these nano-objects continues to grow every year. This is due …

In the vicinity of plasmonic nanostructures that support highly confined light fields,
spontaneous emission processes, such as two-photon spontaneous emission (TPSE) …

We present a general framework that computes the two-photon spontaneous emission rate
of a quantum emitter close to an arbitrary photonic structure beyond the dipolar …