Spin-charge separation in 1D fermions enables partially gapped deconfined quantum critical points between locally ordered phases, inferred via field theory and supported by numerical analysis of a microscopic model.
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A generalized finite-time scaling form unifies Kibble-Zurek scaling for slow drives and De Grandi-Gritsev-Polkovnikov scaling for sudden quenches across arbitrary rates in critical dynamics.
Direct measurement of static correlation length ξ and dynamical relaxation time τ in the disordered phase of a driven polariton fluid yields τ ∝ ξ^z with z ≈ 2, indicating diffusive dynamics of a non-conserved order parameter.
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Deconfined quantum critical points in fermionic systems with spin-charge separation
Spin-charge separation in 1D fermions enables partially gapped deconfined quantum critical points between locally ordered phases, inferred via field theory and supported by numerical analysis of a microscopic model.