Phys. Rev. A 56, 3245 - 3254 (1997)Field propagator of a dressed junction: Fluorescence lifetime calculations in a confined geometry
Adel Rahmani, Patrick C. Chaumet, and Frédérique de Fornel
Christian Girard Received 5 February 1997; revised 10 June 1997 The study of the fluorescence phenomenon by near-field optical techniques requires one to describe precisely the spontaneous emission change occurring when the fluorescing particle is placed in a complex optical environment. For this purpose, the field susceptibility (also called the field propagator) of a planar junction formed by a cavity bounded by two semi-infinite bodies with arbitrary optical constant is derived within the framework of linear-response theory. The field propagator associated with the junction is then modified in a self-consistent manner to account for the presence of any arbitrary object inside the junction. As a first illustration the alteration of the fluorescence lifetime of a molecule by two subwavelength-sized dielectric spheres, placed inside the junction, is presented. ©1997 The American Physical Society
URL: http://link.aps.org/doi/10.1103/PhysRevA.56.3245 [ Abstract | Previous article | Next article | Issue 4 ] |
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