Photon Distribution Amplitude in approach with nonlocal condensates
A. V. Pimikov
TL;DR
This paper explores the photon distribution amplitude and magnetic susceptibility using a nonlocal condensate approach at leading order, providing insights into photon structure in quantum chromodynamics.
Contribution
It introduces a nonlocal condensate method to analyze photon distribution amplitudes and magnetic susceptibility at leading order.
Findings
Calculated magnetic susceptibility within the nonlocal condensate framework.
Derived the leading twist light-cone distribution amplitude for the photon.
Provided theoretical predictions consistent with existing models.
Abstract
We investigate magnetic susceptibility and the leading twist light-cone distribution amplitude for the real photon in the framework of the nonlocal condensate approach at LO accuracy of perturbative expansion.
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Taxonomy
TopicsCold Atom Physics and Bose-Einstein Condensates · Quantum Information and Cryptography · Atomic and Subatomic Physics Research