Coherent population trapping in Raman-pulse atom interferometry
Autor: | Krish Kotru, David L. Butts, Brian P. Timmons, Antonije M. Radojevic, Richard E. Stoner, J. Kinast |
---|---|
Rok vydání: | 2011 |
Předmět: |
Physics
education.field_of_study Atom interferometer business.industry Population Laser Atomic and Molecular Physics and Optics law.invention Interferometry symbols.namesake Optics law Astronomical interferometer Atom optics symbols Spontaneous emission Physics::Atomic Physics Atomic physics education business Raman spectroscopy |
Zdroj: | Physical Review A. 84 |
ISSN: | 1094-1622 1050-2947 |
DOI: | 10.1103/physreva.84.043613 |
Popis: | Raman pulse atom interferometry is an important modality for precision measurements of inertial forces and tests of fundamental physics. Typical Raman atom optics use two coherent laser fields applied at gigahertz-scale detunings from optical resonance, so that spontaneous emission produces a minor or negligible source of decoherence. An additional consequence of spontaneous emission is coherent population trapping (CPT). We show that CPT produces coherences and population differences which induce systematic effects in Raman pulse atom interferometers. We do not believe that CPT has been previously identified as an error mechanism in Raman pulse atom interferometry. We present an experimental characterization of CPT coherences and population differences induced in laser-cooled cesium atoms by application of Raman pulses at detunings near 1 GHz, commensurate with detunings used in several precision measurement experiments. We are not aware of previous demonstrations of CPT-induced population difference. We argue that CPT effects could induce phase shifts of several milliradians in magnitude for typical experimental parameters and stipulate that these errors can be suppressed by propagation direction reversal in Raman interferometer-based precision measurements. |
Databáze: | OpenAIRE |
Externí odkaz: |