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Bibliographic Details
Main Authors: Sinha, Aninda, Basumatary, Ujjwal
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.02706
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author Sinha, Aninda
Basumatary, Ujjwal
author_facet Sinha, Aninda
Basumatary, Ujjwal
contents The lecture notes cover the basics of quantum computing methods for quantum field theory applications. No detailed knowledge of either quantum computing or quantum field theory is assumed and we have attempted to keep the material at a pedagogical level. We review the anharmonic oscillator, using which we develop a hands-on treatment of certain interesting QFTs in $1+1D$: $ϕ^4$ theory, Ising field theory, and the Schwinger model. We review quantum computing essentials as well as tensor network techniques. The latter form an essential part for quantum computing benchmarking. Some error modelling on QISKIT is also done in the hope of anticipating runs on NISQ devices. These lecture notes are the expanded version of a one semester course taught by AS during August-November 2025 at the Indian Institute of Science and TA-ed by UB. The programs written for this course are available in a GitHub repository.
format Preprint
id arxiv_https___arxiv_org_abs_2512_02706
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Lectures on Quantum Field Theory on a Quantum Computer
Sinha, Aninda
Basumatary, Ujjwal
Quantum Physics
High Energy Physics - Theory
The lecture notes cover the basics of quantum computing methods for quantum field theory applications. No detailed knowledge of either quantum computing or quantum field theory is assumed and we have attempted to keep the material at a pedagogical level. We review the anharmonic oscillator, using which we develop a hands-on treatment of certain interesting QFTs in $1+1D$: $ϕ^4$ theory, Ising field theory, and the Schwinger model. We review quantum computing essentials as well as tensor network techniques. The latter form an essential part for quantum computing benchmarking. Some error modelling on QISKIT is also done in the hope of anticipating runs on NISQ devices. These lecture notes are the expanded version of a one semester course taught by AS during August-November 2025 at the Indian Institute of Science and TA-ed by UB. The programs written for this course are available in a GitHub repository.
title Lectures on Quantum Field Theory on a Quantum Computer
topic Quantum Physics
High Energy Physics - Theory
url https://arxiv.org/abs/2512.02706