Моделювання одинарної дифракційної дисоціації в резонансній області при високих енергіях

Моделювання одинарної дифракційної дисоціації в резонансній області при високих енергіях

The single diffraction dissociation duality-based model is studied at low missing masses in the light of new experimental data. The distinguishing feature of the model is the nonlinear Regge proton trajectory used to account for the resonances contributions to the cross-sections. It helps to classif...

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Bibliographic Details
Date:2025
Main Authors: Chudak, N.O., Potiienko, O.S., Zhuravel, D.V., Riabov, D.M.
Format: Article
Language:English
Ukrainian
Published: Publishing house "Academperiodika" 2025
Subjects:
одинарна дифракцiйна дисоцiацiя
структурна функцiя протона
область резонансiв
малi маси
перерiз
генерацiя подiй
Online Access:https://ujp.bitp.kiev.ua/index.php/ujp/article/view/2023682
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Journal Title:Ukrainian Journal of Physics

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Ukrainian Journal of Physics
Description
Summary:The single diffraction dissociation duality-based model is studied at low missing masses in the light of new experimental data. The distinguishing feature of the model is the nonlinear Regge proton trajectory used to account for the resonances contributions to the cross-sections. It helps to classify and understand the spectrum of excited states of a proton and their decays, providing insights into the internal structure and dynamics of particles. The behavior of the differential cross-section in the resonance region at small missing masses Mx is investigated. All other resonances that are not taken into account are modeled using the constant background contribution. The possibility and correctness of such a choice is discussed. The model parameters are refined in the light of new experimental data.

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