New Journal of Physics (Jan 2012)

Exciton-assisted optomechanics with suspended carbon nanotubes

  • I Wilson-Rae,
  • C Galland,
  • W Zwerger,
  • A Imamoğlu

DOI
https://doi.org/10.1088/1367-2630/14/11/115003
Journal volume & issue
Vol. 14, no. 11
p. 115003

Abstract

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We propose a framework for inducing strong optomechanical effects in a suspended carbon nanotube based on deformation potential (DP) exciton–phonon coupling. The excitons are confined using an inhomogeneous axial electric field which generates optically active quantum dots with a level spacing in the milli-electronvolt range and a characteristic size in the 10 nm range. A transverse field induces a tunable parametric coupling between the quantum dot and the flexural modes of the nanotube mediated by electron–phonon interactions. We derive the corresponding excitonic DPs and show that this interaction enables efficient optical ground-state cooling of the fundamental mode and could allow us to realize the strong and ultra-strong coupling regimes of the Jaynes–Cummings and Rabi models.