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Paper detail

Optomechanical self-structuring in cold atomic gases

The rapidly developing field of optomechanics aims at the combined control of optical and mechanical (solid-state or atomic) modes. In particular, laser cooled atoms have been used to exploit optomechanical coupling for self-organization in a variety of schemes where the accessible length scales are constrained by a combination of pump modes and those associated to a second imposed axis, typically a cavity axis. Here, we consider a system with many spatial degrees of freedom around a single distinguished axis, in which two symmetries - rotations and translations in the plane orthogonal to the pump axis - are spontaneously broken. We observe the simultaneous spatial structuring of the density of a cold atomic cloud and an optical pump beam. The resulting patterns have hexagonal symmetry. The experiment demonstrates the manipulation of matter by opto-mechanical self-assembly with adjustable length scales and can be potentially extended to quantum degenerate gases.

preprint2013arXivOpen access
Guillaume LabeyrieEnrico TesioPedro M. GomesGian-Luca OppoWilliam J. FirthGordon R. M. RobbAidan S. ArnoldRobin KaiserThorsten Ackemann
physics.atom-phnlin.PSphysics.opticscond-mat.quant-gas
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Guillaume LabeyrieEnrico TesioPedro M. GomesGian-Luca OppoWilliam J. FirthGordon R. M. RobbAidan S. ArnoldRobin KaiserThorsten Ackemann

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