jtenavidal
PostDoc at Tel Aviv University. PhD in Particle Physics at University of Liverpool. Collaborations: GENIE-MC, e4nu, DUNE, CLAS6 data mining and CLAS12
Tel Aviv UniversityIsrael
Pinned Repositories
daqdataformats
DUNE DAQ data formats
detdataformats
Decoders for DUNE raw data
dfmodules
Dataflow applications
lbrulibs
Low-bandwith readout libraries
e4nuanalysiscode
Placeholder for all e4nu analyses
Generator
The popular GENIE Generator product is used by nearly all accelerator neutrino experiments and it plays a key role in the exploitation of neutrino data. The Generator implements a modern software framework and it includes state-of-the-art physics modules. It captures the latest results of the GENIE global analysis of neutrino scattering data and includes several tunes that were produced using the proprietary Comparisons and Tuning products. The GENIE physics model is universal and comprehensive: It handles all neutrinos and targets, and all processes relevant from MeV to PeV energy scales. The Generator includes several tools (flux drivers, detector geometry navigators, specialized event generation apps, event reweighting engines) to simulate complex experimental setups in full detail and to support generator-related analysis tasks.
CrossSection_nTuple
Creating an nTuple for the cross-section analysis work
Event_Selection_Tool
Takes in trees containing information about reconstructed and true SBND events, generated in LArSoft and written to a single root file. Performs PID and identifies true and reconstructed topologies and true interactions
Generator
The popular GENIE Generator product is used by nearly all accelerator neutrino experiments and it plays a key role in the exploitation of neutrino data. The Generator implements a modern software framework and it includes state-of-the-art physics modules. It captures the latest results of the GENIE global analysis of neutrino scattering data and includes several tunes that were produced using the proprietary Comparisons and Tuning products. The GENIE physics model is universal and comprehensive: It handles all neutrinos and targets, and all processes relevant from MeV to PeV energy scales. The Generator includes several tools (flux drivers, detector geometry navigators, specialized event generation apps, event reweighting engines) to simulate complex experimental setups in full detail and to support generator-related analysis tasks.
ParticleTrackAnalysis
Developing a LArSoft Analyzer to find new features in muon and pion tracks. Final goal: develop a new PID method
jtenavidal's Repositories
jtenavidal/Generator
The popular GENIE Generator product is used by nearly all accelerator neutrino experiments and it plays a key role in the exploitation of neutrino data. The Generator implements a modern software framework and it includes state-of-the-art physics modules. It captures the latest results of the GENIE global analysis of neutrino scattering data and includes several tunes that were produced using the proprietary Comparisons and Tuning products. The GENIE physics model is universal and comprehensive: It handles all neutrinos and targets, and all processes relevant from MeV to PeV energy scales. The Generator includes several tools (flux drivers, detector geometry navigators, specialized event generation apps, event reweighting engines) to simulate complex experimental setups in full detail and to support generator-related analysis tasks.
jtenavidal/CrossSection_nTuple
Creating an nTuple for the cross-section analysis work
jtenavidal/Event_Selection_Tool
Takes in trees containing information about reconstructed and true SBND events, generated in LArSoft and written to a single root file. Performs PID and identifies true and reconstructed topologies and true interactions
jtenavidal/ParticleTrackAnalysis
Developing a LArSoft Analyzer to find new features in muon and pion tracks. Final goal: develop a new PID method