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Quantum simulation of fundamental particles and forces
Quantum simulation of fundamental particles and forces
by Savage, Martin J , Davoudi, Zohreh , Klco, Natalie , Bauer, Christian W
in Astronomical models / Atoms & subatomic particles / Computers / Cosmology / Dynamic characteristics / Elementary particles / Equilibrium / Experiments / Gravitational waves / High energy physics / Neutrinos / Neutron stars / Particle physics / Phase transitions / Physics / Quantum computing / Quantum entanglement / Quantum field theory / Quarks / Simulation / Standard model (particle physics) / Supernovae / Universe
2023
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Quantum simulation of fundamental particles and forces
by Savage, Martin J , Davoudi, Zohreh , Klco, Natalie , Bauer, Christian W
in Astronomical models / Atoms & subatomic particles / Computers / Cosmology / Dynamic characteristics / Elementary particles / Equilibrium / Experiments / Gravitational waves / High energy physics / Neutrinos / Neutron stars / Particle physics / Phase transitions / Physics / Quantum computing / Quantum entanglement / Quantum field theory / Quarks / Simulation / Standard model (particle physics) / Supernovae / Universe
2023
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Quantum simulation of fundamental particles and forces
Quantum simulation of fundamental particles and forces
by Savage, Martin J , Davoudi, Zohreh , Klco, Natalie , Bauer, Christian W
in Astronomical models / Atoms & subatomic particles / Computers / Cosmology / Dynamic characteristics / Elementary particles / Equilibrium / Experiments / Gravitational waves / High energy physics / Neutrinos / Neutron stars / Particle physics / Phase transitions / Physics / Quantum computing / Quantum entanglement / Quantum field theory / Quarks / Simulation / Standard model (particle physics) / Supernovae / Universe
2023

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Quantum simulation of fundamental particles and forces
Quantum simulation of fundamental particles and forces
Journal Article

Quantum simulation of fundamental particles and forces

Savage, Martin J,
Davoudi, Zohreh,
Klco, Natalie,
Bauer, Christian W
2023
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Overview
Key static and dynamic properties of matter — from creation in the Big Bang to evolution into subatomic and astrophysical environments — arise from the underlying fundamental quantum fields of the standard model and their effective descriptions. However, the simulation of these properties lies beyond the capabilities of classical computation alone. Advances in quantum technologies have improved control over quantum entanglement and coherence to the point at which robust simulations of quantum fields are anticipated in the foreseeable future. In this Perspective article, we discuss the emerging area of quantum simulations of standard-model physics, outlining the challenges and opportunities for progress in the context of nuclear and high-energy physics.Quantum simulations of the fundamental particles and forces of nature have a central role in understanding key static and dynamic quantum properties of matter. Motivations, techniques and future challenges for simulations of quantum fields are discussed, highlighting examples of early progress towards the dynamics of high-density, non-equilibrium systems of quarks, gluons and neutrinos.
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Publisher
Nature Publishing Group
Subject

Astronomical models

/ Atoms & subatomic particles

/ Computers

/ Cosmology

/ Dynamic characteristics

/ Elementary particles

/ Equilibrium

/ Experiments

/ Gravitational waves

/ High energy physics

/ Neutrinos

/ Neutron stars

/ Particle physics

/ Phase transitions

/ Physics

/ Quantum computing

/ Quantum entanglement

/ Quantum field theory

/ Quarks

/ Simulation

/ Standard model (particle physics)

/ Supernovae

/ Universe

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