Speaker
Juan José Gálvez Viruet
(Univ. Complutense de Madrid)
Description
The real-time phenomenology of QCD remains elusive to traditional computational techniques based on Monte Carlo sampling in Euclidean space. In contrast, on Quantum Computers the time evolution is in principle possible because the basic gates form a universal set of unitary transformations.
In this context, we discuss the calculation of fragmentation functions, key to describe how quarks and gluons transform into observable hadrons. As we move along we introduce a series of strategies to face the problem using quantum computers, all grounded in a codification paradigm where particles and their internal degrees of freedom are the central objects.
Authors
Felipe J. Llanes-Estrada
(Universidad Complutense de Madrid)
Juan José Gálvez Viruet
(Univ. Complutense de Madrid)
María Gómez-Rocha
(Universidad de Granada)
Nicolas Alberto Martínez
Dr
Timothy J. Hobbs
(ANL)