Nonuniversal Intensity Correlations in a Two-Dimensional Anderson-Localizing Random Medium

Pedro David Garcia-Fernandez; Søren Stobbe; Immo Nathanael Sollner; Peter Lodahl

doi:10.1103/physrevlett.109.253902

Nonuniversal Intensity Correlations in a Two-Dimensional Anderson-Localizing Random Medium

Pedro David Garcia-Fernandez, Søren Stobbe, Immo Nathanael Sollner, Peter Lodahl

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29 Citations (Scopus)

Abstract

Complex dielectric media often appear opaque because light traveling through them is scattered multiple times. Although the light scattering is a random process, different paths through the medium can be correlated encoding information about the medium. Here, we present spectroscopic measurements of nonuniversal intensity correlations that emerge when embedding quantum emitters inside a disordered photonic crystal that is found to Anderson-localize light. The emitters probe in situ the microscopic details of the medium, and imprint such near-field properties onto the far-field correlations. Our findings provide new ways of enhancing light-matter interaction for quantum electrodynamics and energy harvesting, and may find applications in subwavelength diffuse-wave spectroscopy for biophotonics.

Original language	English
Journal	Physical Review Letters
Volume	109
Issue number	25
Pages (from-to)	253902
ISSN	0031-9007
DOIs	https://doi.org/10.1103/physrevlett.109.253902
Publication status	Published - 19 Dec 2012

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10.1103/physrevlett.109.253902

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abstract = "Complex dielectric media often appear opaque because light traveling through them is scattered multiple times. Although the light scattering is a random process, different paths through the medium can be correlated encoding information about the medium. Here, we present spectroscopic measurements of nonuniversal intensity correlations that emerge when embedding quantum emitters inside a disordered photonic crystal that is found to Anderson-localize light. The emitters probe in situ the microscopic details of the medium, and imprint such near-field properties onto the far-field correlations. Our findings provide new ways of enhancing light-matter interaction for quantum electrodynamics and energy harvesting, and may find applications in subwavelength diffuse-wave spectroscopy for biophotonics.",

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AU - Garcia-Fernandez, Pedro David

AU - Stobbe, Søren

AU - Sollner, Immo Nathanael

AU - Lodahl, Peter

PY - 2012/12/19

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N2 - Complex dielectric media often appear opaque because light traveling through them is scattered multiple times. Although the light scattering is a random process, different paths through the medium can be correlated encoding information about the medium. Here, we present spectroscopic measurements of nonuniversal intensity correlations that emerge when embedding quantum emitters inside a disordered photonic crystal that is found to Anderson-localize light. The emitters probe in situ the microscopic details of the medium, and imprint such near-field properties onto the far-field correlations. Our findings provide new ways of enhancing light-matter interaction for quantum electrodynamics and energy harvesting, and may find applications in subwavelength diffuse-wave spectroscopy for biophotonics.

AB - Complex dielectric media often appear opaque because light traveling through them is scattered multiple times. Although the light scattering is a random process, different paths through the medium can be correlated encoding information about the medium. Here, we present spectroscopic measurements of nonuniversal intensity correlations that emerge when embedding quantum emitters inside a disordered photonic crystal that is found to Anderson-localize light. The emitters probe in situ the microscopic details of the medium, and imprint such near-field properties onto the far-field correlations. Our findings provide new ways of enhancing light-matter interaction for quantum electrodynamics and energy harvesting, and may find applications in subwavelength diffuse-wave spectroscopy for biophotonics.

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DO - 10.1103/physrevlett.109.253902

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JO - Physical Review Letters

JF - Physical Review Letters

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Nonuniversal Intensity Correlations in a Two-Dimensional Anderson-Localizing Random Medium

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