Published on:
8 May 2024
Primary Category:
Quantum Physics
Paper Authors:
Tobias Kehrer,
Tobias Nadolny,
Christoph Bruder
Undriven spins can sync through interference blockades
Magnitude of sync locking is proportional to drive strength
Mediated by 3rd order spin-spin interaction
Also occurs between non-directly coupled spins
Quantum synchronization through interference blockades
A study showing that undriven spin-1 oscillators can exhibit synchronization to an external drive through quantum interference blockades, which normally suppress phase locking, and this effect also occurs between non-directly coupled spins in a chain.
Phase locking in driven quantum oscillators
Symmetry breaking in coupled parametric oscillators
Periodically driven spin system exhibits time crystal and localization
Controlling spin correlations via two-tone driving
Spin-motion coupling in a suspended carbon nanotube
Quasiperiodically coupled spin chains undergo localization transition
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