Data di Pubblicazione:
2008
Abstract:
Inhomogeneously broadened optical transitions of nitrogen-vacancy centers in diamond may be employed to
attain fully developed photonic band-gap structures with negligible absorption via coherent optical nonlinearities.
For realistic material parameters, the resulting band gap may be tuned via the coupling field to acquire
reflectivities very close to unity and sufficiently large bandwidths. We anticipate that this can be used to
optically control with remarkable experimental simplicity the reflected and transmitted parts of an incident
light pulse.
attain fully developed photonic band-gap structures with negligible absorption via coherent optical nonlinearities.
For realistic material parameters, the resulting band gap may be tuned via the coupling field to acquire
reflectivities very close to unity and sufficiently large bandwidths. We anticipate that this can be used to
optically control with remarkable experimental simplicity the reflected and transmitted parts of an incident
light pulse.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
ELECTROMAGNETICALLY INDUCED TRANSPARENCY; ATOMIC MEDIUM; CRYSTAL; BAND
Elenco autori:
JIN HUI, Wu; LA ROCCA, G; Artoni, Maurizio
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