Observation of Single-Photon Switching
Abstract
We report an experimental demonstration of single-photon switching in laser-cooled 87Rb atoms. A resonant probe pulse with an energy per unit area of one photon per λ2/2π propagates through the optically thick atoms. Its energy transmittance is greater than 63% or loss is less than e-1 due to the effect of electromagnetically induced transparency. In the presence of a switching pulse with an energy per unit area of 1.4 photons per λ2/2π, the energy transmittance of the same probe pulse becomes less than 37% or e-1. This substantial reduction of the probe transmittance caused by single switching photons has potential applications in single-photon-level nonlinear optics and the manipulation of quantum information.
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