A systematic uncertainty on the energy scale of the Telescope Array fluorescence detectors
The Telescope Array experiment (TA) is the largest cosmic-ray detector in the northern hemi-sphere and consists of a surface detector (SD) array, plus three fluorescence detector (FD) stations overlooking the SD. The large field-of-view of an FD allows for reconstruction of the air-shower development in the atmosphere by imaging ultra-violet fluorescence light from atmospheric nitrogen excited by UHECRs. In estimation of the primary energy it is necessary to add to the calorimetric energy observed by the FD a “missing energy”, meaning the fraction of the primary energy that is not deposited by charged particles in the air. We report on the measurement of the missing energy from observed data collected by the TA FD and TA SD, independently of Monte Carlo simulations, using a technique pioneered by the Pierre Auger Observatory. We also address the effect on the energy scale attributed to fluorescence yield parameters.
2018
2020-04-28 23:07:58
1033
UHECR, cosmic rays, energy spectrum
r6
T.
Fujii
70
Jon Paul
Lundquist
70
COBISS_ID
3
13034499
DOI
15
10.22323/1.301.0524
NUK URN
18
URN:SI:UNG:REP:XUCBWSKO
ICRC2017_524.pdf
4965127
Predstavitvena datoteka
2020-04-28 23:08:30
0
Izvorni URL
2020-04-28 23:08:12