Nondestructive detection of atoms bouncing on an evanescent wave
- 1 December 1995
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review A
- Vol. 52 (6), 4704-4708
- https://doi.org/10.1103/physreva.52.4704
Abstract
A cloud of atoms reflecting from an evanescent-wave mirror produces a phase shift on the beam producing the evanescent wave. This shift can be used to detect the passage of the atoms. We give a physical discussion of this process and estimate the phase shift. The shift can be greatly increased by using a resonant planar waveguide. We also estimate the signal-to-noise ratio and show how to optimize the experimental parameters of such a measurement. Using the waveguide we find a signal-to-noise ratio of order of 300 in a realistic experimental situation.Keywords
This publication has 12 references indexed in Scilit:
- Quantum nondemolition measurements using a crossed Kerr effect between atomic and light fieldsPhysical Review A, 1995
- One atom in an optical cavity: Spatial resolution beyond the standard diffraction limitApplied Physics B Laser and Optics, 1995
- Reflection of atoms from a dielectric wave guideOptics Communications, 1994
- Atom opticsPhysics Reports, 1994
- Optical quantum non-demolition measurementsPhysica Scripta, 1994
- Cesium atoms bouncing in a stable gravitational cavityPhysical Review Letters, 1993
- Atomic-position resolution by quadrature-field measurementPhysical Review A, 1993
- High resolution selective reflection spectroscopy as a probe of long-range surface interaction : measurement of the surface van der Waals attraction exerted on excited Cs atomsJournal de Physique II, 1992
- Normal-incidence reflection of slow atoms from an optical evanescent waveOptics Letters, 1990
- Nonlinear selective reflection from an atomic vapor at arbitrary incidence anglePhysical Review A, 1988