The JIMWLK evolution and the s-channel unitarity
Abstract Further developing ideas set forth in [1], we discuss QCD Reggeon Field Theory (RFT) and formulate restrictions imposed on its Hamiltonian by the unitarity of underlying QCD. We identify explicitly the QCD RFT Hilbert space, provide algebra of the basic degrees of freedom (Wilson lines and...
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SpringerOpen
2020-09-01
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| Series: | Journal of High Energy Physics |
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| Online Access: | http://link.springer.com/article/10.1007/JHEP09(2020)199 |
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doaj-3524eae843d743f2963fd4122152ae742020-11-25T02:06:07ZengSpringerOpenJournal of High Energy Physics1029-84792020-09-012020913110.1007/JHEP09(2020)199The JIMWLK evolution and the s-channel unitarityAlex Kovner0Eugene Levin1Ming Li2Michael Lublinsky3Physics Department, University of ConnecticutDepartemento de Física, Universidad Técnica Federico Santa María, and Centro Científico-Tecnológico de ValparaísoPhysics Department, University of ConnecticutPhysics Department, University of ConnecticutAbstract Further developing ideas set forth in [1], we discuss QCD Reggeon Field Theory (RFT) and formulate restrictions imposed on its Hamiltonian by the unitarity of underlying QCD. We identify explicitly the QCD RFT Hilbert space, provide algebra of the basic degrees of freedom (Wilson lines and their duals) and the algorithm for calculating the scattering amplitudes. We formulate conditions imposed on the “Fock states” of RFT by unitary nature of QCD, and explain how these constraints appear as unitarity constraints on possible RFT hamiltonians that generate energy evolution of scattering amplitudes. We study the realization of these constraints in the dense-dilute limit of RFT where the appropriate Hamiltonian is the JIMWLK Hamiltonian H JIMWLK. We find that the action H JIMWLK on the dilute projectile states is unitary, but acting on dense “target” states it violates unitarity and generates states with negative probabilities through energy evolution.http://link.springer.com/article/10.1007/JHEP09(2020)199Perturbative QCDResummation |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Alex Kovner Eugene Levin Ming Li Michael Lublinsky |
| spellingShingle |
Alex Kovner Eugene Levin Ming Li Michael Lublinsky The JIMWLK evolution and the s-channel unitarity Journal of High Energy Physics Perturbative QCD Resummation |
| author_facet |
Alex Kovner Eugene Levin Ming Li Michael Lublinsky |
| author_sort |
Alex Kovner |
| title |
The JIMWLK evolution and the s-channel unitarity |
| title_short |
The JIMWLK evolution and the s-channel unitarity |
| title_full |
The JIMWLK evolution and the s-channel unitarity |
| title_fullStr |
The JIMWLK evolution and the s-channel unitarity |
| title_full_unstemmed |
The JIMWLK evolution and the s-channel unitarity |
| title_sort |
jimwlk evolution and the s-channel unitarity |
| publisher |
SpringerOpen |
| series |
Journal of High Energy Physics |
| issn |
1029-8479 |
| publishDate |
2020-09-01 |
| description |
Abstract Further developing ideas set forth in [1], we discuss QCD Reggeon Field Theory (RFT) and formulate restrictions imposed on its Hamiltonian by the unitarity of underlying QCD. We identify explicitly the QCD RFT Hilbert space, provide algebra of the basic degrees of freedom (Wilson lines and their duals) and the algorithm for calculating the scattering amplitudes. We formulate conditions imposed on the “Fock states” of RFT by unitary nature of QCD, and explain how these constraints appear as unitarity constraints on possible RFT hamiltonians that generate energy evolution of scattering amplitudes. We study the realization of these constraints in the dense-dilute limit of RFT where the appropriate Hamiltonian is the JIMWLK Hamiltonian H JIMWLK. We find that the action H JIMWLK on the dilute projectile states is unitary, but acting on dense “target” states it violates unitarity and generates states with negative probabilities through energy evolution. |
| topic |
Perturbative QCD Resummation |
| url |
http://link.springer.com/article/10.1007/JHEP09(2020)199 |
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