The lower critical dimension of the non-equilibrium phase transition is non-integer and fractal and can be tuned continuously by the frequency detuning of the driving field.
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Above a critical parametric drive, a cross-Kerr-coupled resonator chain enters a nonlinearity-dictated topological phase with spontaneous symmetry breaking and non-trivial bulk-boundary correspondence.
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Tunable lower critical fractal dimension for a non-equilibrium phase transition
The lower critical dimension of the non-equilibrium phase transition is non-integer and fractal and can be tuned continuously by the frequency detuning of the driving field.
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Nonlinearity-driven Topology via Spontaneous Symmetry Breaking
Above a critical parametric drive, a cross-Kerr-coupled resonator chain enters a nonlinearity-dictated topological phase with spontaneous symmetry breaking and non-trivial bulk-boundary correspondence.