Add to ORKGVacuum-stimulated Raman transitions are driven between two magnetic substates of a rubidium-87 atom strongly coupled to an optical cavity. A magnetic field lifts the degeneracy of these states, and the atom is alternately exposed to laser pulses of two different frequencies. This produces a stream of single photons with alternating circular polarization in a predetermined spatio-temporal mode. MHz repetition rates are possible as no recycling of the atom between photon generations is required. Photon indistinguishability is tested by time-resolved two-photon interference
For quantum computation the efficient preparation and connection of multiple qubits must be addresse...
We investigate the efficiency of atom-cavity-based photongeneration schemes to deliver single photon...
A single cesium atom trapped within the mode of an optical cavity is used to generate single photons...
Vacuum-stimulated Raman transitions are driven between two magnetic substates of a 87Rb atom strongl...
Vacuum-stimulated Raman transitions are driven between two magnetic substates of a rubidium-87 atom ...
Vacuum-stimulated Raman transitions are driven between two magnetic substates of a 87Rb atom strongl...
Photonic qubits play an instrumental role in the development of advanced quantum technologies, inclu...
By illuminating an individual rubidium atom stored in a tight optical tweezer with short resonant li...
Photonic qubits play an instrumental role in the development of advanced quantum technologies, inclu...
We develop a robust and realistic mechanism for the generation of indistinguishable single-photon (S...
We develop a robust and realistic mechanism for the generation of indistinguishable single-photon (S...
Single-photons of well-defined polarisation that are deterministically generated in a single spatio-...
Single-photons of well-defined polarisation that are deterministically generated in a single spatio-...
For quantum computation the efficient preparation and connection of multiple qubits must be addresse...
Recent experimental advances in the field of cavity quantum electrodynamics (QED) have opened new po...
For quantum computation the efficient preparation and connection of multiple qubits must be addresse...
We investigate the efficiency of atom-cavity-based photongeneration schemes to deliver single photon...
A single cesium atom trapped within the mode of an optical cavity is used to generate single photons...
Vacuum-stimulated Raman transitions are driven between two magnetic substates of a 87Rb atom strongl...
Vacuum-stimulated Raman transitions are driven between two magnetic substates of a rubidium-87 atom ...
Vacuum-stimulated Raman transitions are driven between two magnetic substates of a 87Rb atom strongl...
Photonic qubits play an instrumental role in the development of advanced quantum technologies, inclu...
By illuminating an individual rubidium atom stored in a tight optical tweezer with short resonant li...
Photonic qubits play an instrumental role in the development of advanced quantum technologies, inclu...
We develop a robust and realistic mechanism for the generation of indistinguishable single-photon (S...
We develop a robust and realistic mechanism for the generation of indistinguishable single-photon (S...
Single-photons of well-defined polarisation that are deterministically generated in a single spatio-...
Single-photons of well-defined polarisation that are deterministically generated in a single spatio-...
For quantum computation the efficient preparation and connection of multiple qubits must be addresse...
Recent experimental advances in the field of cavity quantum electrodynamics (QED) have opened new po...
For quantum computation the efficient preparation and connection of multiple qubits must be addresse...
We investigate the efficiency of atom-cavity-based photongeneration schemes to deliver single photon...
A single cesium atom trapped within the mode of an optical cavity is used to generate single photons...