Grassmann Tensor Renormalization Group Approach to One-Flavor Lattice Schwinger Model

· 2014 · hep-lat · arXiv 1403.0642

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abstract

We apply the Grassmann tensor renormalization group to the lattice regularized Schwinger model with one-flavor of the Wilson fermion. We study the phase diagram in the $(\beta,\kappa)$ plane performing a detailed analysis of the scaling behavior of the Lee-Yang zeros and the peak height of the chiral susceptibility. Our results strongly indicate that the whole range of the phase transition line starting from $(\beta,\kappa)=(0.0,0.380665(59))$ and ending at $(\infty,0.25)$ belongs to the two-dimensional Ising universality class similarly to the free fermion case.

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Tensor-network formulation of QCD in the strong-coupling expansion

hep-lat · 2025-08-13 · unverdicted · novelty 7.0

Tensor-network reformulation of strong-coupling QCD with staggered fermions at nonzero μ, yielding analytical results on 2×2 lattices up to β^4.

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Tensor-network formulation of QCD in the strong-coupling expansion hep-lat · 2025-08-13 · unverdicted · none · ref 13 · internal anchor
Tensor-network reformulation of strong-coupling QCD with staggered fermions at nonzero μ, yielding analytical results on 2×2 lattices up to β^4.

Grassmann Tensor Renormalization Group Approach to One-Flavor Lattice Schwinger Model

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