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Energy Resolution and Mean are obtained using the Weighted average Method.

This analysis discusses the linearity and energy resolution of ScECAL at Kyungpook National University in 2011. It evaluates the deviation from linearity and the correction factors applied to the Mip constants at low and high temperatures. The study presents results for various beam momentums and energy levels, showcasing the impact of temperature corrections on energy resolution. Additionally, the backup plan includes event selection and systematic uncertainty assessment.

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Energy Resolution and Mean are obtained using the Weighted average Method.

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  1. ScECAL Fermilab Beam Test analysisScECAL Group MeetingKyungpook National University, Daegu, Republic of Korea,August 3rd , 2011Adil Khan, Satoru Uozumi, DongHee Kim

  2. 1. ScECAL Linearity & Energy Resolutionc • For all the points 1,2,4,8,12, 15, 20,30,32 using the Mip constant values extracted at low Temperature. • Temperature Correction also applied • Energy Resolution and Mean are obtained using • the Weighted average Method. Energy resolutionare obtained after fitting :

  3. Devaition from Linearity Deviation from the Linear behavior of the measured deposited energy as a function of the beam momentum in case of using Mip constant corrected with low temperature and also Temperature correction

  4. 2. ScECAL Linearity & Energy Resolution • For all the points 1,2,4,8,12, 15, 20,30,32 using the Mip constant values extracted at High Temperature. • Temperature Correction also applied • Energy Resolution and Mean are obtained using the • Weighted average Method. Energy resolutionare obtained after fitting :

  5. Deviation from Linearity Deviation from the Linear behavior of the measured deposited energy as a function of the beam momentum in case of using Mip constant corrected with High temperature and also Temperature correction

  6. SCEAL deposited energy in Mips Vs. number of Events 32GeV 30GeV 15GeV 20GeV

  7. 1 GeV 2 GeV 4 GeV 8 GeV 12 GeV

  8. BACK UP

  9. Plan • Check for event Selection • study systematic uncertainty

  10. Devaition from Linearity Deviation from the Linear behavior of the measured deposited energy as a function of the beam momentum in case of using Mip constant corrected with low temperature and also Temperature correction

  11. Devaition from Linearity Deviation from the Linear behavior of the measured deposited energy as a function of the beam momentum in case of using Mip constant corrected with High temperature and also Temperature correction

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