Doctoral Thesis
DOI
https://doi.org/10.11606/T.43.2007.tde-17122007-095340
Document
Author
Full name
Maria Simone Kugeratski Souza
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2007
Supervisor
Navarra, Fernando Silveira (Catálogo USP)
Gonçalves, Victor Paulo Barros - (Co-supervisor) (Catálogo USP)
Gonçalves, Victor Paulo Barros - (Co-supervisor) (Catálogo USP)
Committee
Navarra, Fernando Silveira (President)
Albuquerque, Ivone Freire da Mota e
Ayala Filho, Alvaro Leonardi
Natale, Adriano Antonio
Szpigel, Sergio
Albuquerque, Ivone Freire da Mota e
Ayala Filho, Alvaro Leonardi
Natale, Adriano Antonio
Szpigel, Sergio
Title in Portuguese
Dipolos de cor e interações a altas energias
Keywords in Portuguese
Fenomenologia
F\\\'isica de part\\\' iculas
Satura\\c\\~ao de gluons
F\\\'isica de part\\\' iculas
Satura\\c\\~ao de gluons
Abstract in Portuguese
A altas energias o n\'ucleon (ou o n\'ucleo) pode ser visto como um sistema denso de gl\'uons, o condensado de vidro de cor. Neste trabalho estudamos a intera\c\~ao deste sistema com dipolos de cor. Esta intera\c\~ao \'e representada pela se\c\~ao de choque dipolo-alvo, a qual \'e modelada. Utilizamos alguns dos modelos propostos na literatura para descrever os dados do HERA e do RHIC e propusemos uma nova parametriza\c\~ao que \'e capaz de descrever estes dados simultaneamente, demonstrando a propriedade de universalidade do condensado de vidro de cor. Generalizamos o modelo proposto por Iancu, Itakura e Munier para o caso nuclear e o aplicamos ao estudo de espalhamento el\'etron-n\'ucleo. Estimamos a influ\^encia dos efeitos de satura\c\~ao nos observ\'aveis que ser\~ao medidos no futuro eRHIC. Conclu\'imos entre outras coisas, que uma grande fra\c\~ao dos eventos observados ser\~ao do tipo difrativo. Finalmente usamos a id\'eia de dipolo de cor para estudar a se\c\~ao de choque charmonium-h\'adron.
Title in English
Color dipoles and high energies interaction
Keywords in English
Gluon saturation
Particle physics
Phenomenology
Particle physics
Phenomenology
Abstract in English
At high energies a nucleus (and even a nucleon) becomes a dense gluonic system called the color glass condensate. In this work we study the interaction of this dense system with color dipoles. This interaction is represented by the dipole-target cross section, which has to be modeled. We have used, without success, some of the existing models to try to reproduce the data obtained at HERA and RHIC. It was not possible to obtain a global agreement between the models and the two sets of data. We have then proposed a different parametrization of the dipole cross section, which is now compatible with all the available data. In the case of deep inelastic scattering, we have extended the Iancu-Itakura-Munier model to nuclear targets and made predictions for observables to be measured in the future electron-ion collider eRHIC. Among other things, we have concluded that a large fraction of the events will be of the diffractive type. Finally, we have used the color dipole approach to build a simple model for the charmonium-hadron interaction at high energies.
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Publishing Date
2008-03-24
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