The Energy Spectrum of the Pion from Lattice QCD

Authors

Dilan Arik, Minerva University
Navneeth C, Central University of Jharkhand, Ranchi, India
Sufiyan Mirza, St. Xavier’s College, Mumbai, India
Ameer Mustafa, , School of Natural Sciences, Sector H-12, Islamabad, Pakistan
Debarshi Mukherjee, Indian Institute of Science Education and Research, Berhampur, India
Rajath R, SPPU, Pune, India
Anantha Srinivasan, National Institute of Technology Calicut, Kozhikode, India
Preksha Uniyal, University Road, University Enclave, New Delhi, India
Martha Constantinou, Temple University

Mentor

Martha Constantinou , Temple University

Publication Date

2024

Document Type

Paper

DOI

10.25776/dq84-dc08

Pages

1-6 pp.

Abstract

In this report, computational techniques are employed to extract the energy eigenvalues of the pion from two-point correlation function data that has been simulated using the lattice formulation of Quantum Chromodynamics (QCD) across various momentum values for the particle. The analysis focuses on systematically obtaining these eigenvalues to understand better the behavior of the pion under different kinematic conditions. Once extracted, these energy eigenvalues obtained through plateau fitting of the Energy vs Time graph, are utilized to plot the dispersion relation of the pion. This resulting dispersion relation is then compared with theoretical predictions to assess the accuracy and validity of the computational approach. The comparison provides insights into how well the lattice QCD simulations align with established theoretical expectations, and what range of kinematic variables are reliable.

Repository Citation

Arik, Dilan; C, Navneeth; Mirza, Sufiyan; Mustafa, Ameer; Mukherjee, Debarshi; R, Rajath; Srinivasan, Anantha; Uniyal, Preksha; and Constantinou, Martha, "The Energy Spectrum of the Pion from Lattice QCD" (2024). 2024 REYES Proceedings. 19.
https://digitalcommons.odu.edu/reyes-2024/19