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Main Authors: Carrillo, Marco A., Briceño, Raúl A., Sturzu, Alexandru M.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.06877
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author Carrillo, Marco A.
Briceño, Raúl A.
Sturzu, Alexandru M.
author_facet Carrillo, Marco A.
Briceño, Raúl A.
Sturzu, Alexandru M.
contents The need to determine scattering amplitudes of few-hadron systems for arbitrary kinematics expands a broad set of subfields of modern-day nuclear and hadronic physics. In this work, we expand upon previous explorations on the use of real-time methods, like quantum computing or tensor networks, to determine few-body scattering amplitudes. Such calculations must be performed in a finite Minkowski spacetime, where scattering amplitudes are not well defined. Our previous work presented a conjecture of a systematically improvable estimator for scattering amplitudes constructed from finite-volume correlation functions. Here we provide further evidence that the prescription works for larger kinematic regions than previously explored as well as a broader class of scattering amplitudes. Finally, we devise a new method for estimating the order of magnitude of the error associated with finite time separations needed for such calculations. In units of the lightest mass of the theory, we find that to constrain amplitudes using real-time methods within $\mathcal{O}(10\%)$, the spacetime volumes must satisfy $mL \sim \mathcal{O}(10-10^2)$ and $ mT\sim \mathcal{O}(10^2-10^4)$.
format Preprint
id arxiv_https___arxiv_org_abs_2406_06877
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Inclusive reactions from finite Minkowski spacetime correlation functions
Carrillo, Marco A.
Briceño, Raúl A.
Sturzu, Alexandru M.
High Energy Physics - Lattice
Quantum Physics
The need to determine scattering amplitudes of few-hadron systems for arbitrary kinematics expands a broad set of subfields of modern-day nuclear and hadronic physics. In this work, we expand upon previous explorations on the use of real-time methods, like quantum computing or tensor networks, to determine few-body scattering amplitudes. Such calculations must be performed in a finite Minkowski spacetime, where scattering amplitudes are not well defined. Our previous work presented a conjecture of a systematically improvable estimator for scattering amplitudes constructed from finite-volume correlation functions. Here we provide further evidence that the prescription works for larger kinematic regions than previously explored as well as a broader class of scattering amplitudes. Finally, we devise a new method for estimating the order of magnitude of the error associated with finite time separations needed for such calculations. In units of the lightest mass of the theory, we find that to constrain amplitudes using real-time methods within $\mathcal{O}(10\%)$, the spacetime volumes must satisfy $mL \sim \mathcal{O}(10-10^2)$ and $ mT\sim \mathcal{O}(10^2-10^4)$.
title Inclusive reactions from finite Minkowski spacetime correlation functions
topic High Energy Physics - Lattice
Quantum Physics
url https://arxiv.org/abs/2406.06877