Coupling Nanomechanical Cantilevers to Dipolar Molecules
- 24 December 2008
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 101 (26), 263603
- https://doi.org/10.1103/physrevlett.101.263603
Abstract
We investigate the coupling of a nanomechanical oscillator in the quantum regime with molecular (electric) dipoles. We find theoretically that the cantilever can produce single-mode squeezing of the center-of-mass motion of an isolated trapped molecule and two-mode squeezing of the phonons of an array of molecules. This work opens up the possibility of manipulating dipolar crystals, which have been recently proposed as quantum memory, and more generally, is indicative of the promise of nanoscale cantilevers for the quantum detection and control of atomic and molecular systems.Keywords
All Related Versions
This publication has 24 references indexed in Scilit:
- Bose-Einstein Condensate Coupled to a Nanomechanical Resonator on an Atom ChipPhysical Review Letters, 2007
- An All-Optical Trap for a Gram-Scale MirrorPhysical Review Letters, 2007
- Radiation Pressure Cooling of a Micromechanical Oscillator Using Dynamical BackactionPhysical Review Letters, 2006
- Self-cooling of a micromirror by radiation pressureNature, 2006
- Radiation-pressure cooling and optomechanical instability of a micromirrorNature, 2006
- Sub-kelvin optical cooling of a micromechanical resonatorNature, 2006
- Coupled Ion-Nanomechanical SystemsPhysical Review Letters, 2004
- Single spin detection by magnetic resonance force microscopyNature, 2004
- Cooling of a Mirror by Radiation PressurePhysical Review Letters, 1999
- On the measurement of a weak classical force coupled to a harmonic oscillator: experimental progressReviews of Modern Physics, 1996