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2014 | 2 | 1 |

Article title

Hybrid optomechanics for Quantum Technologies

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EN

Abstracts

EN
We review the physics of hybrid optomechanical
systems consisting of a mechanical oscillator interacting
with both a radiation mode and an additional matterlike
system. We concentrate on the cases embodied by either
a single or a multi-atom system (a Bose-Einstein condensate,
in particular) and discuss a wide range of physical
effects, from passive mechanical cooling to the set-up
of multipartite entanglement, from optomechanical nonlocality
to the achievement of non-classical states of a single
mechanical mode. The reviewed material showcases
the viability of hybridised cavity optomechanical systems
as basic building blocks for quantum communication networks
and quantum state-engineering devices, possibly
empowered by the use of quantum and optimal control
techniques. The results that we discuss are instrumental
to the promotion of hybrid optomechanical devices as
promising experimental platforms for the study of nonclassicality
at the genuine mesoscopic level.

Publisher

Year

Volume

2

Issue

1

Physical description

Dates

received
16 - 1 - 2014
accepted
21 - 3 - 2014
online
23 - 6 - 2014
revised
6 - 4 - 2014

Contributors

author
  • Centre for Theoretical Atomic, Molecular and Optical
    Physics, School of Mathematics and Physics, Queen’s University,
    Belfast BT7 1NN, United Kingdom
author
  • Dipartimento di Fisica e Astronomia Galileo Galilei and
    CNISM, Università di Padova, Via Marzolo 8, 35122 Padova, Italy
author
  • Centre for Theoretical Atomic, Molecular and Optical
    Physics, School of Mathematics and Physics, Queen’s University,
    Belfast BT7 1NN, United Kingdom
author
  • NEST Istituto Nanoscienze-CNR and Dipartimento di
    Fisica e Chimica, Universitá degli Studi di Palermo, via Archirafi 36,
    I-90123 Palermo, Italy
  • Centre for Theoretical Atomic, Molecular and Optical
    Physics, School of Mathematics and Physics, Queen’s University,
    Belfast BT7 1NN, United Kingdom
  • Institut für Theoretische Physik, Albert-Einstein-Allee 11, Universität
    Ulm, D-89069 Ulm, Germany

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bwmeta1.element.-psjd-doi-10_2478_qmetro-2014-0002
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