Kinematic Fitting Workshop 2021

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Revision as of 20:32, 14 October 2021 by Aaustreg (Talk | contribs) (Registration)

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About the Workshop

Kinematic fitting is one of the most important tools for analyzing data in hadron physics. This workshop will give an overview about the basic concepts of kinematic fitting, and how this is used in GlueX analysis. The following topics are covered amongst other things:

  • Mathematical background of kinematic fitting
  • Diagnostic tools
  • Implementation in GlueX data analysis

Location and Time

The workshop will take place at:

DATES: Friday, Oct. 22, 2021

LOCATION: ONLINE. (add Zoom link)

Requirements

  • Basic knowledge in linear algebra
  • Understand core principles of least squares minimization with constraints
  • Familiar with ROOT data analysis

Workshop Software

The official software and all scripts used during the tutorial can be found on the JLab CUE:

/group/halld/Software/workshops/XXX

To obtain your own version of the tutorial and complete the exercises, please clone it from GitHub in your own working area. (Everything should be uploaded here]

Registration

Please add your name to the list of attendees below. No formal registration or registration fee is required.

Name Home Institution Level
Sean Dobbs FSU Faculty
Igal Jaegle JLab Postdoc
Lawrence Ng FSU Graduate Student
Phoebe Sharp GWU Graduate Student
Tolga Erbora FIU Graduate Student
Bhesha Devkota MSU Graduate Student
Gabriel Rodríguez Linera FSU Graduate Student
Varun Neelamana University of Regina Graduate Student
Chandra Akondi FSU Postdoc
Mark Ito JLab Staff
Carlos Ayerbe Gayoso Mississippi State University Postdoc
Nathaly Santiesteban MIT Postdoc
Churamani Paudel FIU Grad Student
Edmundo Barriga FSU Graduate Student
Alex Austregesilo JLab Staff

Remote Participation

This will be done via Zoom - more information to come.

Workshop Agenda

  • 09:50 - Lecture (130)
    • 09:50 - Welcome and overview (10) - Sean Dobbs
    • 10:00 - Data analysis in hadron physics and introduction to kinematic fitting (60) - Daniel Lersch
    • 11:00 - Implementing and diagnosing the kinematic fit algorithm (60) - Daniel Lersch
  • 12:00 - Break (60)
  • 13:00 - Hands-on Session
    • 4-5 Exercises with discussion
  • 17:00 - Adjourn