YCRC Research Support Office Hours
YCRC Research Support staff are available to answer questions related to research computing and provide ad hoc training.
No appointment necessary. Join at https://yale.zoom.us/my/ycrcsupport
YCRC Research Support staff are available to answer questions related to research computing and provide ad hoc training.
No appointment necessary. Join at https://yale.zoom.us/my/ycrcsupport
YCRC Research Support staff are available to answer questions related to research computing and provide ad hoc training.
No appointment necessary. Join at https://yale.zoom.us/my/ycrcsupport
YCRC Research Support staff are available to answer questions related to research computing and provide ad hoc training.
No appointment necessary. Join at https://yale.zoom.us/my/ycrcsupport
YCRC Research Support staff are available to answer questions related to research computing and provide ad hoc training.
No appointment necessary. Join at https://yale.zoom.us/my/ycrcsupport
YCRC Research Support staff are available to answer questions related to research computing and provide ad hoc training.
No appointment necessary. Join at https://yale.zoom.us/my/ycrcsupport
YCRC Research Support staff are available to answer questions related to research computing and provide ad hoc training.
No appointment necessary. Join at https://yale.zoom.us/my/ycrcsupport
YCRC Research Support staff are available to answer questions related to research computing and provide ad hoc training.
No appointment necessary. Join at https://yale.zoom.us/my/ycrcsupport
Jets are collimated sprays of final-state particles produced from initial high-momentum-transfer partonic scatterings in particle collisions. Since jets are multi-scale objects that connect asymptotically free partons to confined hadrons, jet substructure measurements can provide insight into parton evolution and the ensuing hadronization processes.
Jets are collimated sprays of hadrons focused in the direction of the initially scattered parton in a high-energy particle collision. These collisions are produced at particle colliders such as the Relativistic Heavy Ion Collider (RHIC) and the Large Hadron Collider (LHC).
The ALICE experiment was built to study many-body Quantum Chromo-Dynamics (QCD) at high temperature and effectively zero baryon density, using relativistic heavy-ion collisions at the Large Hadron Collider (LHC). These collisions form the Quark Gluon Plasma (QGP), a state of matter where quarks and gluons are no longer confined inside hadrons. The ALICE physics program centers around the key questions related to QGP phenomena.