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New fermion discretizations and their applications

· 2012 · hep-lat · arXiv 1211.6999

3 Pith papers cite this work. Polarity classification is still indexing.

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abstract

We review the recent progress in new lattice fermion formulations. We focus on the following three types which have possibility of improving lattice simulations. (1) Flavored-mass fermions are a generalization of Wilson fermions with species-splitting mass terms. In particular, staggered-Wilson fermions initiated by Adams have possibilities of reducing numerical costs in overlap fermions and the influence of taste-breaking in staggered fermions. (2) Central-branch Wilson fermions, in which additive mass renormalization is forbidden by extra axial symmetry, could enable us to perform Wilson-fermion lattice QCD without fine-tuning. (3) Minimally doubled fermions, which reduce the number of species by species-dependent chemical potential terms, realizes a ultra-local chiral fermion at the price of hypercubic symmetry. These setups reveal unknown aspects of lattice fermions, and we obtain a deeper understanding of lattice field theory.

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hep-lat 3

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2026 2 2025 1

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UNVERDICTED 3

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representative citing papers

Taste-splitting mass and edge modes in $3+1$ D staggered fermions

hep-lat · 2026-04-02 · unverdicted · novelty 7.0

A kink in a one-link mass term for 3+1D staggered fermions creates a 2+1D domain wall with two-flavor massless Dirac fermions protected by SU(2) and parity, realizing the parity anomaly from the UV lattice Hamiltonian.

Minimal-doubling and single-Weyl Hamiltonians

hep-lat · 2025-12-27 · unverdicted · novelty 6.0

Minimal-doubling lattice fermion Hamiltonians yield single-Weyl phases when supplemented by a species-splitting mass term, but one-parameter symmetry-preserving deformations introduce additional Weyl nodes above a critical value.

citing papers explorer

Showing 3 of 3 citing papers.

  • Lattice fermion formulation via Physics-Informed Neural Networks: Ginsparg-Wilson relation and Overlap fermions hep-lat · 2026-05-07 · unverdicted · none · ref 25 · 2 links · internal anchor

    Physics-Informed Neural Networks construct lattice Dirac operators satisfying the Ginsparg-Wilson relation, reproducing overlap fermions to high accuracy and discovering a Fujikawa-type generalized relation via algebraic search.

  • Taste-splitting mass and edge modes in $3+1$ D staggered fermions hep-lat · 2026-04-02 · unverdicted · none · ref 67

    A kink in a one-link mass term for 3+1D staggered fermions creates a 2+1D domain wall with two-flavor massless Dirac fermions protected by SU(2) and parity, realizing the parity anomaly from the UV lattice Hamiltonian.

  • Minimal-doubling and single-Weyl Hamiltonians hep-lat · 2025-12-27 · unverdicted · none · ref 28 · internal anchor

    Minimal-doubling lattice fermion Hamiltonians yield single-Weyl phases when supplemented by a species-splitting mass term, but one-parameter symmetry-preserving deformations introduce additional Weyl nodes above a critical value.