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We characterize the diffusion and redistribution processes that Rb atoms undergo on the inner silica surface of hollow-core photonic bandgap fibers by investigating the dynamics of fiber-transmission and light-induced atomic desorption.
We demonstrate efficient modulation of four-wave mixing in a Rb-waveguide system via application of a weak ldquoswitchingrdquo field. We observe 3 dB attenuation of the signal field with only 3600 photons of ldquoswitchingrdquo energy.
We generate a highly-controlled, optically-dense, and repeatable Rb vapor inside of a hollow-core photonic bandgap fiber using light-induced atomic desorption. Here we present its generation dynamics and use for nonlinear quantum optical applications.
We use light-induced atomic desorption to produce an appreciable density of Rubidium atoms in a hollow-core photonic bandgap fiber and demonstrate electromagnetically induced transparency at very low light levels.
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