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QCD and hadron structure-B1
Place
Location: Mexico City
Date:
26 Jul 11:15 - 13:15
Conveners
DSE 1
Dr. Aguilar, Arlene Cristina (University of Campinas)
I will shortly review how lattice and continuum QCD methods can be properly combined to deliver 2- and 3-points Green's functions, thus revealing some key features linked to the infrared dynamics of the theory. Moreover, they can be used to build a process-independent effective charge that can be of help in gaining further insight in hadron phenomenology.
Presented by Prof. Jose RODRIGUEZ-QUINTERO
on
26/7/2021
at
16:40
Results for the ground states and excited states of glueballs in Yang-Mills theory with $J^{\pm+}$, J=0,1,2,3,4 from Bethe-Salpeter equations are presented. The input comes from parameter-free Dyson-Schwinger calculations of the propagators and vertices. We compare with the corresponding lattice results and add some excited states to the known spectrum.
Presented by Dr. Markus HUBER
on
26/7/2021
at
17:05
We compute the parton distribution functions (PDFs) of nucleon at hadron scale with an analytic model motivated by Dyson-Schwinger equation approaches, and then applied the DGLAP evolution to get glue and sea distribution at higher energy scale. We also proposed a mechanism of sea asymmetry in nucleon, through an additional $q/\bar{q}\rightarrow \pi$ process in DGLAP evolution.
I will present a brief summary of the main theoretical properties of the three-gluon vertex, and will discuss some of the most interesting phenomenological applications that require it as input.
Presented by Dr. Joannis PAPAVASSILIOU
on
26/7/2021
at
16:15
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