Extends classical nucleation theory to nonequilibrium non-conserved scalar fields by showing the time-reversed-relaxation ansatz fails and deriving corrected quasipotentials via two independent routes, validated numerically.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2representative citing papers
Disorder in monolayer graphene induces superconductivity with finite order parameter and geometrical superfluid weight for weak interactions, enabling global phase coherence.
citing papers explorer
-
Nucleation and time-reversal symmetry breaking in nonconserved scalar field theories
Extends classical nucleation theory to nonequilibrium non-conserved scalar fields by showing the time-reversed-relaxation ansatz fails and deriving corrected quasipotentials via two independent routes, validated numerically.
-
Disorder-induced superconductivity in graphene
Disorder in monolayer graphene induces superconductivity with finite order parameter and geometrical superfluid weight for weak interactions, enabling global phase coherence.