Sentences with phrase «quantum emitters»

«By chemically modifying the nanotube surface to controllably introduce light - emitting defects, we have developed carbon nanotubes as a single photon source, working toward implementing defect - state quantum emitters operating at room temperature and demonstrating their function in technologically useful wavelengths,» said Stephen Doorn.

Things become particularly thrilling when so - called «quantum emitters» are coupled to the light field.

«By chemically modifying the nanotube surface to controllably introduce light - emitting defects, we have developed carbon nanotubes as a single photon source, working toward implementing defect - state quantum emitters operating at room temperature and demonstrating their function in technologically useful wavelengths,» said Stephen Doorn, leader of the project at Los Alamos and a member of the Center for Integrated Nanotechnologies (CINT).

«In quantum optics, the lack of phase advance would allow quantum emitters in a zero - index cavity or waveguide to emit photons which are always in phase with one another,» said Philip Munoz, a graduate student in the Mazur lab and co-author on the paper.

With this research, quantum emitters are now seen in another TMD material, namely tungsten disulphide (WS2).

Dr Marek Potemski and co-workers working at CNRS (France) in collaboration with researchers at the University of Warsaw (Poland) discovered stable quantum emitters at the edges of WSe2 monolayers, displaying highly localised photoluminescence with single - photon emission characteristics.

The quantum emitters are highly localised in the TMD layer and have spectrally sharp emission spectra.

Consequently, if we now bring a suitably prepared quantum emitter into the light field of a photonic structure, the strength of the interaction between the emitter and the light will depend on the light's propagation direction.

These carbon nanotube quantum light emitters may be important for optically - based quantum information processing and information security, while also being of significant interest for ultrasensitive sensing, metrology and imaging needs and as photon sources for fundamental advances in quantum optics studies.

These quantum light emitters are important for optically - based quantum information processing and information security, ultrasensitive sensing, metrology and imaging needs and as photon sources for quantum optics studies.