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 …

In this review, we present the ongoing developments in bridging the gap between
holography and experiments. To this end, we discuss information scrambling and models of …

Studying QCD and other gauge theories on quantum hardware requires the preparation of
physically interesting states. The variational quantum eigensolver provides a way of …

Matrix quantum mechanics plays various important roles in theoretical physics, such as a
holographic description of quantum black holes, and it underpins the only practical …

We consider simulating quantum systems on digital quantum computers. We show that the
performance of quantum simulation can be improved by simultaneously exploiting …

We present a summary of recent progress and remaining challenges in applying the
methods and ideas of quantum information theory to the study of quantum field theory and …

We perform digital quantum simulation, using a classical simulator, to study screening and
confinement in a gauge theory with a topological term, focusing on (1+ 1)-dimensional …

We investigate the real-time dynamics of the (1+ 1)-dimensional U (1) gauge theory known
as the Schwinger model via variational quantum algorithms. Specifically, we simulate …

A bstract We construct a model of Pauli spin operators with all-to-all 4-local interactions by
replacing Majorana fermions in the SYK model with spin operators. Equivalently, we replace …

A bstract We propose a new framework for simulating U (k) Yang-Mills theory on a universal
quantum computer. This construction uses the orbifold lattice formulation proposed by …