Geometry-based classical mapping for two-level systems reveals coupling-dependent transition from oscillatory to tunneling-suppressed dynamics and turns isolated symmetric systems into environment-assisted asymmetric ones.
Coherentmanipulation, measurementandentanglementofindividual solid-state spins using optical fields.Nature photonics, 9(6):363–373
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Dissipative evolution of a two-level system through a geometry-based classical mapping
Geometry-based classical mapping for two-level systems reveals coupling-dependent transition from oscillatory to tunneling-suppressed dynamics and turns isolated symmetric systems into environment-assisted asymmetric ones.