Atomic Bloch-Zener oscillations for sensitive force measurements in a cavity Journal Articles uri icon

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abstract

  • Cold atoms in an optical lattice execute Bloch-Zener oscillations when they are accelerated. We have performed a theoretical investigation into the case when the optical lattice is the intra-cavity field of a driven Fabry-Perot resonator. When the atoms oscillate inside the resonator, we find that their back-action modulates the phase and intensity of the light transmitted through the cavity. We solve the coupled atom-light equations self-consistently and show that, remarkably, the Bloch period is unaffected by this back-action. The transmitted light provides a way to observe the oscillation continuously, allowing high precision measurements to be made with a small cloud of atoms.

authors

  • O'dell, Duncan
  • Prasanna Venkatesh, B
  • Trupke, M
  • Hinds, EA
  • O’Dell, DHJ

publication date

  • December 2009