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Main Authors: Solanki, Kenil, Bhandari, Gaurav, Pathak, S. D., Ojha, Vikash Kumar
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.20899
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author Solanki, Kenil
Bhandari, Gaurav
Pathak, S. D.
Ojha, Vikash Kumar
author_facet Solanki, Kenil
Bhandari, Gaurav
Pathak, S. D.
Ojha, Vikash Kumar
contents We study the angular momentum structure of the gauge field in Lorentz covariant relativistic generalized uncertainty principle (RGUP) framework incorporating Planck scale minimal length effects. Using Noether's theorem for higher derivative RGUP-modified gauge field Lagrangian, we obtain the canonical and symmetric (Belinfante) energy-momentum tensors and the corresponding gauge spin and orbital angular momentum currents. We show that the canonical and Belinfante-Rosenfeld angular-momentum tensors continue to satisfy the standard conservation law in the presence of Planck-scale corrections. %These results support the stability of fundamental conservation laws under high-energy modifications. The RGUP corrections introduce higher-order contributions to the angular momentum density and momentum flow, yielding a modified Poynting vector, with the Maxwell limit recovered for vanishing RGUP parameter.
format Preprint
id arxiv_https___arxiv_org_abs_2601_20899
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Photon angular momentum near Planck scale
Solanki, Kenil
Bhandari, Gaurav
Pathak, S. D.
Ojha, Vikash Kumar
High Energy Physics - Phenomenology
We study the angular momentum structure of the gauge field in Lorentz covariant relativistic generalized uncertainty principle (RGUP) framework incorporating Planck scale minimal length effects. Using Noether's theorem for higher derivative RGUP-modified gauge field Lagrangian, we obtain the canonical and symmetric (Belinfante) energy-momentum tensors and the corresponding gauge spin and orbital angular momentum currents. We show that the canonical and Belinfante-Rosenfeld angular-momentum tensors continue to satisfy the standard conservation law in the presence of Planck-scale corrections. %These results support the stability of fundamental conservation laws under high-energy modifications. The RGUP corrections introduce higher-order contributions to the angular momentum density and momentum flow, yielding a modified Poynting vector, with the Maxwell limit recovered for vanishing RGUP parameter.
title Photon angular momentum near Planck scale
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2601.20899