Synthesizing 1D Dirac dispersion and unidirectional spin flow for cold atoms

Mingwu Lu; Dina Genkina; Alina Pineiro; I.B. Spielman

Synthesizing 1D Dirac dispersion and unidirectional spin flow for cold atoms

ORAL

Abstract

We describe a spin dependent bipartite [1] Floquet lattice [2], in which the dispersion relation is linear for all points in the Brillouin zone. The Floquet spectrum of our periodically-driven Hamiltonian features: perfect spin-momentum locking, a linear Dirac dispersion, and unidirectional spin-motion. These experiments are performed in ${87}Rb$ Bose-Einstein condensates subject to simultaneous RF and Optical couplings. [1] H.-I Lu, M. Schemmer, L. Aycock, D. Genkina, S. Sugawa, and I. Spielman, Phys Rev Lett 116, 200402 (2016) [2] J.C. Budich, Y Hu, P. Zoller, Phys Rev Lett 118, 105302 (2017)

May 31, 2018, 11:42 AM – May 31, 2018, 11:54 AM

Authors

Mingwu Lu
- JQI, University of Maryland, College Park and National Institute of Standards and Technology
- Joint Quantum Institute, Univ. of Maryland, College Park and National Institute of Standards and Technology
Dina Genkina
- Joint Quantum Institute, Univ. of Maryland, College Park and National Institute of Standards and Technology
Alina Pineiro
- Joint Quantum Institute, Univ. of Maryland, College Park and National Institute of Standards and Technology
I.B. Spielman
- Joint Quantum Institute, Univ. of Maryland, College Park and National Institute of Standards and Technology