Twisted photons

Molina Terriza, Gabriel; Pérez Torres, Juan; Torner Sabata, Lluís

doi:10.1038/nphys607

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Molina Terriza, Gabriel

Pérez Torres, Juan

Torner Sabata, Lluís

Document typeArticle

Defense date2007-05

Rights accessRestricted access - publisher's policy

All rights reserved. This work is protected by the corresponding intellectual and industrial property rights. Without prejudice to any existing legal exemptions, reproduction, distribution, public communication or transformation of this work are prohibited without permission of the copyright holder

Abstract

The orbital angular momentum of light represents a fundamentally new optical degree of freedom. Unlike linear momentum, or spin angular momentum, which is associated with the polarization of light, orbital angular momentum arises as a subtler and more complex consequence of the spatial distribution of the intensity and phase of an optical field — even down to the single photon limit. Consequently, researchers have only begun to appreciate its implications for our understanding of the many ways in which light and matter can interact, or its practical potential for quantum information applications. This article reviews some of the landmark advances in the study and use of the orbital angular momentum of photons, and in particular its potential for realizing high-dimensional quantum spaces.

CitationMolina-Terriza, G., Juan P. Torres, Torner, L. Twisted photons. "Nature physics", Maig 2007, vol. 3, núm. 5, p. 305-310.

URIhttp://hdl.handle.net/2117/105315

DOI10.1038/nphys607

ISSN1745-2473

Publisher versionhttp://www.nature.com/nphys/journal/v3/n5/full/nphys607.html

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