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Collider events on a quantum computer

Gösta Gustafson, Stefan Prestel, Michael Spannowsky, Simon Williams

2022Journal of High Energy Physics24 citationsDOIOpen Access PDF

Abstract

A bstract High-quality simulated data is crucial for particle physics discoveries. Therefore, parton shower algorithms are a major building block of the data synthesis in event generator programs. However, the core algorithms used to generate parton showers have barely changed since the 1980s. With quantum computers’ rapid and continuous development, dedicated algorithms are required to exploit the potential that quantum computers provide to address problems in high-energy physics. This paper presents a novel approach to synthesising parton showers using the Discrete QCD method. The algorithm benefits from an elegant quantum walk implementation which can be embedded into the classical toolchain. We use the ibm_algiers device to sample parton shower configurations and generate data that we compare against measurements taken at the ALEPH, DELPHI and OPAL experiments. This is the first time a Noisy Intermediate-Scale Quantum (NISQ) device has been used to simulate realistic high-energy particle collision events.

Topics & Concepts

PhysicsParton showerToolchainEvent (particle physics)PartonParticle physicsColliderQuantum chromodynamicsExploitEvent reconstructionLarge Hadron ColliderQuantum computerQuantumComputational scienceComputer scienceSoftwareProgramming languageQuantum mechanicsDetectorOpticsComputer securityParticle physics theoretical and experimental studiesAdvanced Data Storage TechnologiesDistributed and Parallel Computing Systems
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