Robust entangled states in a non-hermitian periodically driven two-band Bose-Hubbard Hamiltonian

Carlos Alberto Parra Murillo; Manuel Humberto Muñoz Arias; Javier Madroñero; Sandro Wimberger

Robust entangled states in a non-hermitian periodically driven two-band Bose-Hubbard Hamiltonian

POSTER

Abstract

The steady state properties of a many-body Wannier-Stark system coupled to an effective reservoir is studied within the non-Hermitian approach in the presence of periodic time-dependent driving. We show how the interplay between dissipation and shaking dynamics reveals a hidden symmetries yielding the occurrence of a (quasi-) loss- and interaction-free subspace. We numerically probe the geometric structure of the asymptotic state and its robustness to imperfections in the preparation of the initial conditions, dissipation and the size of system.

^*The authors acknownledge the finantial support of the University del Valle (project CI 7996). C. A. Parra- Murillo greatfully acknowledges the financial support of COLCIENCIAS (grant 656)

Authors

Carlos Alberto Parra Murillo
- Universidad del Valle
Manuel Humberto Muñoz Arias
- Universidad del Valle
Javier Madroñero
- Universidad del Valle
Sandro Wimberger
- Università degli Studi di Parma, Heidelberg University