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Discrete Tunable Color Entanglement

Source: Phys. Rev. Lett. 103, 253601 (2010); doi:10.1103/PhysRevLett.103.253601

Published 16 December 2009

PACS
  • 42.50.Dv
    Quantum state engineering and measurements (quantum optics)
  • 03.65.Wj
    State reconstruction, quantum tomography
  • 03.67.Bg
    Entanglement production and manipulation (quantum information)
  • 42.50.Ex
    Optical implementations of quantum information processing and transfer
  • YEAR: 2009
PUBLICATION DATA
Publisher:
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S. Ramelow,1,2 L. Ratschbacher,1 A. Fedrizzi,1,2,3 N. K. Langford,1,2 and A. Zeilinger1,2
1Institute for Quantum Optics and Quantum Information, Austrian Academy of Sciences, Boltzmanngasse 3, A-1090 Vienna, Austria
2Faculty of Physics, University of Vienna, Boltzmanngasse 5, A-1090 Vienna, Austria
3Physics Department & Centre for Quantum Computer Technology, University of Queensland, Qld 4072, Australia
Although frequency multiplexing of information has revolutionized the field of classical communications, the color degree of freedom (DOF) has been used relatively little for quantum applications. We experimentally demonstrate a new hybrid quantum gate that transfers polarization entanglement of nondegenerate photons onto the color DOF. We create, for the first time, high-quality, discretely color-entangled states (with energy band gap up to 8.4 THz) without any spectrally selective filtering, and unambiguously verify and quantify the amount of entanglement (tangle, 0.611±0.009) by reconstructing a restricted density matrix; we generate a range of maximally entangled states, including a set of mutually unbiased bases for an encoded qubit space. The technique can be generalized to transfer polarization entanglement onto other photonic DOFs, like orbital angular momentum. ©2009 The American Physical Society
History: Received 30 April 2009; published 16 December 2009
Permalink: http://link.aps.org/abstract/PRL/v103/e253601
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