Photon-antibunching in the fluorescence of statistical ensembles of emitters at an optical nanofiber-tip

Photon-antibunching in the fluorescence of statistical ensembles of emitters at an optical nanofiber-tip

This proposal investigates the photon-statistics of light emitted by a statistical ensemble of cold atoms excited by the near-field of an optical nanofiber tip. Dipole-dipole interactions of atoms at such short distance from each other suppress the simultaneous emission of more than one photon and l...

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Veröffentlicht in:New journal of physics 2019-03, Vol.21 (3), p.35009
Hauptverfasser: Suarez, Elmer, Auwärter, David, Arruda, Tiago J, Bachelard, Romain, Courteille, Philippe W, Zimmermann, Claus, Slama, Sebastian
Format: Artikel
Sprache:eng
Schlagworte:
Atomic states
Autocorrelation functions
Cold atoms
Computer simulation
Dipole interactions
Emitters
Fluorescence
fluorescence enhancement
Nanofibers
nanotip
Photons
Physics
plasmonics
Purcell effect
single photon source
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Beschreibung
Zusammenfassung:This proposal investigates the photon-statistics of light emitted by a statistical ensemble of cold atoms excited by the near-field of an optical nanofiber tip. Dipole-dipole interactions of atoms at such short distance from each other suppress the simultaneous emission of more than one photon and lead to antibunching of photons. We consider a mean atom number on the order of one and deal with a Poissonian mixture of one and two atoms including dipole-dipole interactions and collective decay. Time tracks of the atomic states are simulated in quantum Monte Carlo simulations from which the g(2)-photon autocorrelation function is derived. The general results can be applied to any statistical ensemble of emitters that are interacting by dipole-dipole interactions.
ISSN:1367-2630
1367-2630
DOI:10.1088/1367-2630/ab0a99