FRG analysis of Z_n-anisotropic Gross-Neveu-Yukawa theories shows irrelevant anisotropy for n>3 yielding N=2 supersymmetric criticality and a second length scale whose exponent satisfies ν'/ν = 1 + |y_n|/2.
Nonequilib- rium critical dynamics with emergent supersymmetry
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In driven critical dynamics of the 3D q-state clock model, two distinct finite-time scaling regions appear, governed by time scales ζ_d ∝ v^{-z/r} and ζ_d' ∝ v^{-z/r'}, with the angular order parameter φ_q switching dominance between them depending on driving velocity v.
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Supersymmetric quantum criticality with discrete symmetry
FRG analysis of Z_n-anisotropic Gross-Neveu-Yukawa theories shows irrelevant anisotropy for n>3 yielding N=2 supersymmetric criticality and a second length scale whose exponent satisfies ν'/ν = 1 + |y_n|/2.
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Finite-time scaling with two characteristic time scales: Driven critical dynamics with emergent symmetry
In driven critical dynamics of the 3D q-state clock model, two distinct finite-time scaling regions appear, governed by time scales ζ_d ∝ v^{-z/r} and ζ_d' ∝ v^{-z/r'}, with the angular order parameter φ_q switching dominance between them depending on driving velocity v.