Time-crystalline behavior in central spin models with Heisenberg interactions
ORAL
Abstract
Time-crystalline behavior has been predicted and observed in quantum central-spin systems with Ising interactions subject to periodic driving. Here, we show how to create time-crystal-like phases in central-spin models with Heisenberg interactions, which can be realized in a single dot or defect system or star-shaped dot arrays. We show how to use time crystal physics to stabilize multi-qubit short-range correlated states in the presence of Heisenberg interactions by using either magnetic field gradients or additional pulses on the central spin.
–
Presenters
-
Rafail Frantzeskakis
University of Crete
Authors
-
Rafail Frantzeskakis
University of Crete
-
John Van Dyke
Virginia Tech
-
Leon Zaporski
University of Cambridge
-
Dorian Gangloff
University of Oxford
-
Claire Le Gall
Microsoft Research, Cambridge
-
Mete Atatüre
Univ of Cambridge, University of Cambridge
-
Sophia Economou
Virginia Tech, VirginiaTech
-
Edwin Barnes
Virginia Tech