Observation of Four-Photon Orbital Angular Momentum Entanglement

B. C. Hiesmayr; M. J. A. de Dood; W. Loffler

doi:10.1103/PhysRevLett.116.073601

Observation of Four-Photon Orbital Angular Momentum Entanglement

B. C. Hiesmayr
, M. J. A. de Dood
, W. Loffler (Corresponding author)

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

We demonstrate genuine multipartite quantum entanglement of four photons in their orbital angular momentum degrees of freedom, where a high-dimensional discrete Hilbert space is attached to each photon. This can encode more quantum information compared to the qubit case, but it is a long-standing problem to entangle more than two such photons. In our experiment we use pulsed spontaneous parametric down-conversion to produce the photon quadruplets, which allows us to detect about one four-photon event per second. By means of quantum state reconstruction and a suitable witness operator we find that the photon quadruplets form a genuine multipartite entangled symmetric Dicke state. This opens a new tool for addressing foundational questions in quantum mechanics, and for exploration of novel high-dimensional multiparty quantum information applications such as secret sharing.

Original language	English
Article number	073601
Number of pages	5
Journal	Physical Review Letters
Volume	116
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevLett.116.073601
Publication status	Published - 16 Feb 2016

Funding

We thank Martin van Exter for invaluable discussions. M. J. A. D. and W. L. acknowledge support from NWO and FOM. B. C. H. acknowledges support from the Austrian Science Fund (FWF 23627).

Austrian Fields of Science 2012

103024 Quantum field theory
103026 Quantum optics
103034 Particle physics

Keywords

PARAMETRIC DOWN-CONVERSION
STIMULATED-EMISSION
LIGHT
STATES
DISLOCATIONS
PHOTONS
MODES
BEAMS

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10.1103/PhysRevLett.116.073601

Cite this

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title = "Observation of Four-Photon Orbital Angular Momentum Entanglement",

abstract = "We demonstrate genuine multipartite quantum entanglement of four photons in their orbital angular momentum degrees of freedom, where a high-dimensional discrete Hilbert space is attached to each photon. This can encode more quantum information compared to the qubit case, but it is a long-standing problem to entangle more than two such photons. In our experiment we use pulsed spontaneous parametric down-conversion to produce the photon quadruplets, which allows us to detect about one four-photon event per second. By means of quantum state reconstruction and a suitable witness operator we find that the photon quadruplets form a genuine multipartite entangled symmetric Dicke state. This opens a new tool for addressing foundational questions in quantum mechanics, and for exploration of novel high-dimensional multiparty quantum information applications such as secret sharing.",

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AU - Hiesmayr, B. C.

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N2 - We demonstrate genuine multipartite quantum entanglement of four photons in their orbital angular momentum degrees of freedom, where a high-dimensional discrete Hilbert space is attached to each photon. This can encode more quantum information compared to the qubit case, but it is a long-standing problem to entangle more than two such photons. In our experiment we use pulsed spontaneous parametric down-conversion to produce the photon quadruplets, which allows us to detect about one four-photon event per second. By means of quantum state reconstruction and a suitable witness operator we find that the photon quadruplets form a genuine multipartite entangled symmetric Dicke state. This opens a new tool for addressing foundational questions in quantum mechanics, and for exploration of novel high-dimensional multiparty quantum information applications such as secret sharing.

AB - We demonstrate genuine multipartite quantum entanglement of four photons in their orbital angular momentum degrees of freedom, where a high-dimensional discrete Hilbert space is attached to each photon. This can encode more quantum information compared to the qubit case, but it is a long-standing problem to entangle more than two such photons. In our experiment we use pulsed spontaneous parametric down-conversion to produce the photon quadruplets, which allows us to detect about one four-photon event per second. By means of quantum state reconstruction and a suitable witness operator we find that the photon quadruplets form a genuine multipartite entangled symmetric Dicke state. This opens a new tool for addressing foundational questions in quantum mechanics, and for exploration of novel high-dimensional multiparty quantum information applications such as secret sharing.

KW - PARAMETRIC DOWN-CONVERSION

KW - STIMULATED-EMISSION

KW - LIGHT

KW - STATES

KW - DISLOCATIONS

KW - PHOTONS

KW - MODES

KW - BEAMS

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Observation of Four-Photon Orbital Angular Momentum Entanglement

Abstract

Funding

Austrian Fields of Science 2012

Keywords

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