Effective Cross Section Enhancement from Embedded Atomic Lattice Impurities

Taylor Patti; Dominik S Wild; Ephraim Shahmoon; Mikhail Lukin; Susanne F Yelin

Effective Cross Section Enhancement from Embedded Atomic Lattice Impurities

ORAL

Abstract

Atoms arranged in a two-dimensional lattice strongly interact with light via collective excitations. Such lattices can be supplemented with impurity atoms which couple to the collective array modes and permit the manipulation of emission properties. In particular, the combination of strong array-light coupling and large impurity atom non-linearity enable highly nonlinear responses to collminated, far-field radiation. We explore the effective enhancement of impurity cross section which results from this coupling in a variety of lattice potentials and parameter regimes. Higher-order photon correlations are calculated and pertinet extensions, such as long-lived photon bound states and multi-impurity systems, are discussed.

^*This material is based upon work supported by the National Science Foundation Graduate Research Fellowship under Grant No. DGE1745303.

March 5, 2019, 4:30 PM – March 5, 2019, 4:42 PM

Presenters

Taylor Patti
- Physics, Harvard University

Authors

Taylor Patti
- Physics, Harvard University
Dominik S Wild
- Physics, Harvard University
Ephraim Shahmoon
- Physics, Harvard University
Mikhail Lukin
- Harvard University
- Physics, Harvard University
Susanne F Yelin
- Physics, Harvard University
- Harvard University
- Department of Physics, Harvard University
- Department of Physics, University of Connecticut