Infiltrating a thin or single layer opal with an atomic vapour: sub-doppler signals and crystal optics

Artificial thin glass opals can be infiltrated with a resonant alkali-metal vapour, providing novel types of hybrid systems. The reflection at the interface between the substrate and the opal yields a resonant signal, which exhibits sub-Doppler structures in linear spectroscopy for a range of obliqu...

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Veröffentlicht in:	arXiv.org 2014-09
Hauptverfasser:	Moufarej, Elias, Maurin, Isabelle, Zabkov, Ilya, Laliotis, Athanasios, Ballin, Philippe, Klimov, Vasily, Bloch, Daniel
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Sprache:	eng
Schlagworte:	Alkali metals Anisotropy Crystal optics Hybrid systems Incidence angle Infiltration Interstices Langmuir-Blodgett films Mathematical models Metal vapors Physics - Atomic Physics Physics - Optics Polystyrene resins Substrates
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creator	Moufarej, Elias Maurin, Isabelle Zabkov, Ilya Laliotis, Athanasios Ballin, Philippe Klimov, Vasily Bloch, Daniel
description	Artificial thin glass opals can be infiltrated with a resonant alkali-metal vapour, providing novel types of hybrid systems. The reflection at the interface between the substrate and the opal yields a resonant signal, which exhibits sub-Doppler structures in linear spectroscopy for a range of oblique incidences. This result is suspected to originate in an effect of the three-dimensional confinement of the vapour in the opal interstices. It is here extended to a situation where the opal is limited to a few or even a single layer opal film, which is a kind of bidimensional grating. We have developed a flexible one-dimensional layered optical model, well suited for a Langmuir-Blodgett opal. Once extended to the case of a resonant infiltration, the model reproduces quick variations of the lineshape with incidence angle or polarization. Alternately, for an opal limited to a single layer of identical spheres, a three-dimensional numerical calculation was developed. It predicts crystalline anisotropy, which is demonstrated through diffraction on an empty opal made of a single-layer of polystyrene spheres.
doi_str_mv	10.48550/arxiv.1409.4580
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The reflection at the interface between the substrate and the opal yields a resonant signal, which exhibits sub-Doppler structures in linear spectroscopy for a range of oblique incidences. This result is suspected to originate in an effect of the three-dimensional confinement of the vapour in the opal interstices. It is here extended to a situation where the opal is limited to a few or even a single layer opal film, which is a kind of bidimensional grating. We have developed a flexible one-dimensional layered optical model, well suited for a Langmuir-Blodgett opal. Once extended to the case of a resonant infiltration, the model reproduces quick variations of the lineshape with incidence angle or polarization. Alternately, for an opal limited to a single layer of identical spheres, a three-dimensional numerical calculation was developed. 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subjects	Alkali metals Anisotropy Crystal optics Hybrid systems Incidence angle Infiltration Interstices Langmuir-Blodgett films Mathematical models Metal vapors Physics - Atomic Physics Physics - Optics Polystyrene resins Substrates
title	Infiltrating a thin or single layer opal with an atomic vapour: sub-doppler signals and crystal optics
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