It is for the first time that quantum simulation for high-energy physics (HEP) is studied in the
US decadal particle-physics community planning, and in fact until recently, this was not …

The successes and limitations of statistical sampling for a sequence of models studied in the
context of lattice QCD are discussed and the need for new methods to deal with finite …

Lattice gauge theories, which originated from particle physics in the context of Quantum
Chromodynamics (QCD), provide an important intellectual stimulus to further develop …

We present a gauge-invariant effective action for the Abelian-Higgs model (scalar
electrodynamics) with a chemical potential μ on a (1+ 1)-dimensional lattice. This …

A bstract The critical endpoint of the (3+ 1)-dimensional ℤ 3 gauge-Higgs model at finite
density is determined by the tensor renormalization group method. This work is an extension …

We numerically study the zero temperature phase structure of the multiflavor Schwinger
model at nonzero chemical potential. Using matrix product states, we reproduce analytical …

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 (β, κ) plane …

Renormalization group theory of tensor network states provides a powerful tool for studying
quantum many-body problems and a new paradigm for understanding entangled structures …

We present a tensor formulation for free compact electrodynamics in three Euclidean
dimensions and use this formulation to construct a quantum Hamiltonian in the continuous …

We construct a tensor network representation of the partition function for the massless
Schwinger model on a two-dimensional lattice using staggered fermions. The tensor …