Recent developments in chip-based photonic quantum circuits have radically impacted
quantum information processing. However, it is challenging for monolithic photonic platforms …

Isolating single molecules in the solid state has allowed fundamental experiments in basic
and applied sciences. When cooled down to liquid helium temperature, certain molecules …

One of the most interesting topics in bio-optics is measuring the refractive index of tissues.
Accordingly, two novel optical biosensor configurations for cancer cell detections have been …

Single-photon nanoantennas are broadband strongly scattering nanostructures placed in
the near field of a single quantum emitter, with the goal to enhance the coupling between the …

Layered materials are very attractive for studies of light–matter interactions at the nanoscale.
In particular, isolated quantum systems such as color centers and quantum dots embedded …

Monolithic integration of quantum emitters in nanoscale plasmonic circuitry requires low-loss
plasmonic configurations capable of confining light well below the diffraction limit. We …

Realization of integrated quantum photonics is a key step toward scalable quantum
applications such as quantum computing, sensing, information processing, and quantum …

In this work, a novel plasmonic structure is presented for guiding surface plasmon polaritons,
which can be used as a fundamental waveguide in various plasmonic devices. The …

Optical biosensors based on plasmonic nanostructures have attracted great interest due to
their ability to detect small refractive index changes with high sensitivity. In this work, a novel …

Coherent quantum optics, where the phase of a photon is not scrambled as it interacts with
an emitter, lies at the heart of many quantum optical effects and emerging technologies …