Física Teórica de Partículas
La Física Teórica de Partículas estudia la materia y sus constituyentes al nivel más fundamental. Los estudios teóricos se separan en aspectos formales matemáticos de las teorías y en fenomenología que explica teóricamente los fenómenos observados en experimentos y/o predice otros aún no observados. Nuestro grupo de investigación da un especial énfasis a la fenomenología, manteniendo así una estrecha colaboración con la Física Experimental de Alta Energía.
Grupo de Física Teórica de Partículas CCTVal
Proyectos de investigación
High Energy QCD Processes
- High-pT hadron production
- Pion structure at small x
- Flavor structure of generalized parton distributions from neutrino experiments
- Gauge boson production
- Semi-inclusive photon-hadron production in pp and pA collisions at RHIC and LHC
- Prompt photon production and photon-hadron correlations at RHIC and the LHC from
- Color Glass Condensate
- Particle Production in pA Collisions and QCD Saturation
- CGC predictions for p+A collisions at the LHC and signature of QCD saturation
- Analysis of combined HERA data in the Impact-Parameter dependent Saturation model
- Production and multiplicity of heavy flavors
- Color propagation and hadronization
Nuclear applications
- Shadowing of nuclear pdfs
- Diffractive deep inelastic (DDIS) events
- Momentum sum rule in nuclei
- Hexadiquarks in nuclei
Holographic structure of hadrons
- Holographic models (AdS/QCD)
- Hadronic and Nuclear properties in Holographic QCD
- Chiral expansion
- Quark and gluon generalized parton distributions
Beyond the standard model Physics
- Lepton Flavor violating processes
- Neutrino Physics
- Exotic particle searches at the LHC
- Fermion mass hierarchies
- Radiative mass generation
- Extended continuous and discrete symmetries
- Phenomenological consequences in Collider Physics,
- Flavor Tests
- Charged lepton flavor violation
- Dark Matter
- Leptogenesis
- Muon and electro anomalous magnetic moments
- Quasi-Dirac neutrinos
- Composite Higgs phenomenology