Nonlinear light-matter interaction based on integrated waveguides immersed in hot atomic vapor
ORAL
Abstract
The combination of thermal atomic vapor with nanophotonic structures provides a unique platform for the manipulation of atom-photon and light induced atom-atom interactions and can exhibit large optical non-linearities, even at the single photon level.
We can further enhance these non-linearities by using slot waveguides in which we observe repulsive interactions of the atoms within the slot via an enlarged Purcell factor. Thereby we generate a medium that reaches already in this specific setting a nonlinearity on the few photon level. In order to verify the nature of the non-linearity in more detail we incorporate an integrated Mach-Zehnder interferometer to access also the non-linear phase shift.
Furthermore, we present first measurements of the phase shift in a thermal atomic vapor using a fiber based 3x3 interferometer.
We can further enhance these non-linearities by using slot waveguides in which we observe repulsive interactions of the atoms within the slot via an enlarged Purcell factor. Thereby we generate a medium that reaches already in this specific setting a nonlinearity on the few photon level. In order to verify the nature of the non-linearity in more detail we incorporate an integrated Mach-Zehnder interferometer to access also the non-linear phase shift.
Furthermore, we present first measurements of the phase shift in a thermal atomic vapor using a fiber based 3x3 interferometer.
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Presenters
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Annika Belz
- 5th Institute of Physics, University of Stuttgart