Add to ORKGThe generation of nonclassical states of light via photon blockade with time-modulated input is analyzed. We show that improved single-photon statistics can be obtained by adequately choosing the parameters of the driving laser pulses. An alternative method, where the system is driven via a continuous-wave laser and the frequency of the dipole is controlled (e.g., electrically) at very fast time scales is presented
We propose the use of nanostructured photonic nanocavities made of chi((2)) nonlinear materials as p...
We theoretically investigate the dynamic interaction of a quantum dot in a nanocavity with time-symm...
The controlled production of single photons is of fundamental and practical interest; they represent...
The single photon character of nonclassical states of light that can be generated using photon block...
This is an accepted manuscript of an article published by APS in Physical Review Letters on 08/06/20...
Methods to improve single photon generation via photon-blockade in a photonic-crystal cavity with a ...
Quantum dots in photonic crystals are interesting because of their potential in quantum information ...
Abstract: Methods to improve single photon generation via photon-blockade in a photonic-crystal cavi...
A quantum dot strongly coupled to a photonic crystal resonator is used to investigate cavity quantum...
We propose related schemes to generate arbitrarily shaped single photons, i.e., photons with an arbi...
The strong coupling regime between a single emitter and the mode of an optical resonator allows for ...
Non-classical light sources are often used in quantum cryptography and other fields. To obtain adjus...
We propose two different setups to generate single photons on demand using an atom in front of a mir...
The photon blockade (PB) effect in emitter-cavity systems depends on the anharmonicity of the ladder...
The active microcavity is adopted as an efficient source of non-classical light. By this device, exc...
We propose the use of nanostructured photonic nanocavities made of chi((2)) nonlinear materials as p...
We theoretically investigate the dynamic interaction of a quantum dot in a nanocavity with time-symm...
The controlled production of single photons is of fundamental and practical interest; they represent...
The single photon character of nonclassical states of light that can be generated using photon block...
This is an accepted manuscript of an article published by APS in Physical Review Letters on 08/06/20...
Methods to improve single photon generation via photon-blockade in a photonic-crystal cavity with a ...
Quantum dots in photonic crystals are interesting because of their potential in quantum information ...
Abstract: Methods to improve single photon generation via photon-blockade in a photonic-crystal cavi...
A quantum dot strongly coupled to a photonic crystal resonator is used to investigate cavity quantum...
We propose related schemes to generate arbitrarily shaped single photons, i.e., photons with an arbi...
The strong coupling regime between a single emitter and the mode of an optical resonator allows for ...
Non-classical light sources are often used in quantum cryptography and other fields. To obtain adjus...
We propose two different setups to generate single photons on demand using an atom in front of a mir...
The photon blockade (PB) effect in emitter-cavity systems depends on the anharmonicity of the ladder...
The active microcavity is adopted as an efficient source of non-classical light. By this device, exc...
We propose the use of nanostructured photonic nanocavities made of chi((2)) nonlinear materials as p...
We theoretically investigate the dynamic interaction of a quantum dot in a nanocavity with time-symm...
The controlled production of single photons is of fundamental and practical interest; they represent...