Difference between revisions of "Long term items"

From GlueXWiki
Jump to: navigation, search
Line 1: Line 1:
# FCAL: It has been noticed that the pi0 mass shifts when the LED pulser runs at high rate. This is still not understood. See [https://logbooks.jlab.org/entry/3595928 Log Entry 3595928] and references.  Several runs have been taken in raw mode.  These runs exhibit the shift in pi0 mass with LED running at 1 kHz.  There is a need to analyze these to try to determine the cause.  Susan will undertake this task.
+
# FCAL: It has been noticed that the pi0 mass shifts when the LED pulser runs at high rate. This is still not understood. See [https://logbooks.jlab.org/entry/3595928 Log Entry 3595928] and references.  Several runs have been taken in raw mode.  These runs exhibit the shift in pi0 mass with LED running at 1 kHz.  There is a need to analyze these to try to determine the cause.  [Susan]
 
##50634 - FCAL Green LED: 1kHz, 29 V, Livetime is 9%, 1.7 M events
 
##50634 - FCAL Green LED: 1kHz, 29 V, Livetime is 9%, 1.7 M events
 
##50635 - FCAL Violet LED: 1kHz, 22 V, Livetime is 9%, 1.4 M events
 
##50635 - FCAL Violet LED: 1kHz, 22 V, Livetime is 9%, 1.4 M events

Revision as of 08:47, 1 October 2021

  1. FCAL: It has been noticed that the pi0 mass shifts when the LED pulser runs at high rate. This is still not understood. See Log Entry 3595928 and references. Several runs have been taken in raw mode. These runs exhibit the shift in pi0 mass with LED running at 1 kHz. There is a need to analyze these to try to determine the cause. [Susan]
    1. 50634 - FCAL Green LED: 1kHz, 29 V, Livetime is 9%, 1.7 M events
    2. 50635 - FCAL Violet LED: 1kHz, 22 V, Livetime is 9%, 1.4 M events
    3. 50636 - FCAL Blue LED: 1kHz, 15 V, Livetime is 9%, 1.5 M events
  2. Hadronic split off studies (orphaned at present)
  3. Covariance matrices for photons; need pull distributions (Regina could help); add these to best practices page [Mark]
  4. Spike at BCAL z=220 cm, due to noise [Karthik]
  5. Neutrons: revisit this work; could look at neutron efficiency in hyperon channels, etc. [Tegan et al.]