Laser-driven cooperative dipole-dipole interactions cause free-space atomic arrays to spontaneously form topologically nontrivial dimerized linear chains and self-contracted or expanded ring geometries even from initial separations larger than the transition wavelength.
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Tuning the angle between sites in an OAM l=1 staggered lattice switches the winding number and number of topologically protected edge states in a Creutz-ladder mapping.
A periodically driven dissipative SSH chain exhibits a Z x Z topological classification in its mixed steady state via ensemble geometric phases in the 0 and pi gaps.
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Light-induced Self-Organization in Cooperative Free Space Atomic Arrays
Laser-driven cooperative dipole-dipole interactions cause free-space atomic arrays to spontaneously form topologically nontrivial dimerized linear chains and self-contracted or expanded ring geometries even from initial separations larger than the transition wavelength.
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Geometrical control of topology with orbital angular momentum modes
Tuning the angle between sites in an OAM l=1 staggered lattice switches the winding number and number of topologically protected edge states in a Creutz-ladder mapping.
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Anomalous Mixed-State Floquet Topology in One-Dimensional Open Quantum Systems
A periodically driven dissipative SSH chain exhibits a Z x Z topological classification in its mixed steady state via ensemble geometric phases in the 0 and pi gaps.