High energy scattering of polarized nucleons with The phenomenological spin - orbit potential
Nguyen Nhu Xuan

TL;DR
This paper models high-energy polarized nucleon scattering using a Klein-Gordon framework with a phenomenological spin-orbit potential, employing Glauber representation and Yukawa potential to analyze differential cross sections.
Contribution
It introduces a novel approach combining Klein-Gordon formalism with a phenomenological spin-orbit potential for polarized nucleon scattering analysis.
Findings
Differential cross sections are calculated and discussed.
Yukawa potential effectively determines nucleon polarization.
Glauber type representation is applied to polarized scattering amplitudes.
Abstract
The scattering amplitude of polarized nucleons has been found within the framework of the Klein Gordon with the phenomenological spin - orbit potential. It has the Glauber type representation. The differential cross sections of polarized nucleon are considered and discussed.The Yukawa potential is applied for this problem to determine the polarization of high energy scattering nucleons.
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Taxonomy
TopicsQuantum Chromodynamics and Particle Interactions · Nuclear physics research studies · Pulsars and Gravitational Waves Research
