# Introduction

Energy deposition.

# Energy deposition

Average Sum Transverse Energy ($\Sum{E_T}$) of TileCal cell as a function of eta in collision candidate events at $\sqrt{s}$ = 7 TeV. Only cells with transverse energy above 500 MeV at the EM scale are considered. Non-diffractive minimum bias Monte Carlo events with the same energy cut are superimposed with the collision candidate events. The cut is chosen at 500 MeV in order to have negligible electronic noise contribution.
Contact: Christophe Clement
Reference: ATLAS-PLOT-TILECAL-2010-005
Date: 17 Jun 2010

eps version of the figure
Distributions of the energy deposited in the TileCal cells from collision data at √s = 13 and 0.9 TeV superimposed with Pythia minimum bias Monte Carlo and randomly triggered events from filled and empty bunch crossings. A Level 1 minimum bias trigger scintillator (MBTS) trigger is required for the 13 TeV data. To ensure exactly one interaction has occurred per bunch crossing, only events having a single reconstructed primary vertex are selected. Each distribution is normalized to unit area.

Contact: Andrew Mattillion
Reference: ATL-COM-TILECAL-2016-003
Date: 21 March 2016

eps version of the figure
Energy of the TileCal cells. The distributions from collision data at 7 TeV, 2.36 TeV, and 0.9 TeV are superimposed with Pythia minimum bias Monte Carlo and randomly triggered events. Each distribution is normalized by the number of events.

Contact: Antonella Succurro
Reference: ATLAS-PLOT-TILECAL-2010-001
Date: 17 Jun 2010

eps version of the figure
Average TileCal cell energy as a function of eta from 2015 collision data at √s = 13 TeV superimposed with Pythia Minimum Bias Monte Carlo. Only cells with energy above 250 MeV are selected to reduce contributions from detector noise. A Level 1 minimum bias trigger scintillator (MBTS) trigger is required for the 13 TeV data. To ensure exactly one interaction has occurred per bunch crossing, only events having a single reconstructed primary vertex are selected.

Contact: Andrew Mattillion
Reference: ATL-COM-TILECAL-2016-011
Date: 09 May 2016

eps version of the figure
Average TileCal cell energy as a function of eta in collision candidate events at √s = 7 TeV. Only cells energies above 500 MeV at the EM scale are considered. Non-diffractive minimum bias Monte Carlo events with the same energy cut are superimposed with the collision candidate events.

Contact: Antonella Succurro
Reference: ATLAS-PLOT-TILECAL-2010-001
Date: 17 Jun 2010

eps version of the figure
Average TileCal cell energy as a function of phi from 2015 collision data at √s = 13 TeV superimposed with Pythia Minimum Bias Monte Carlo. Only cells with energy above 250 MeV are selected to reduce contributions from detector noise. A Level 1 minimum bias trigger scintillator (MBTS) trigger is required for the 13 TeV data. To ensure exactly one interaction has occurred per bunch crossing, only events having a single reconstructed primary vertex are selected.

Contact: Andrew Mattillion
Reference: ATL-COM-TILECAL-2016-011
Date: 09 May 2016

eps version of the figure
Average TileCal cell energy as a function of phi in collision candidate events at √s = 7 TeV. Only cells energies above 500 MeV at the EM scale are considered. Non-diffractive minimum bias Monte Carlo events with the same energy cut are superimposed with the collision candidate events.
Contact: Antonella Succurro
Reference: ATLAS-PLOT-TILECAL-2010-001
Date: 17 Jun 2010

eps version of the figure
Average TileCal cell energy as a function of η in collision candidate events. Only cells energies above 300 MeV are considered. Randomly triggered events with the same energy cut are superimposed with the collision candidate events and non‐diffractive minimum bias Monte Carlo.

Contact: Valerio Rossetti
Reference: ATLAS-PLOT-TILECAL-2010-005
Date: 17 Jun 2010

eps version of the figure
Average TileCal cell energy as a function of phi in collision candidate events. Only cells energies above 300 MeV are considered. Randomly triggered events with the same energy cut are superimposed with the collision candidate events and non‐diffractive minimum bias Monte Carlo.
Contact: Valerio Rossetti
Reference: ATLAS-PLOT-TILECAL-2010-005
Date: 17 Jun 2010

eps version of the figure
The number of events in TileCal cells with energy over a threshold of 300 MeV in run 299184 using 2016 collision data at $\sqrt{s} = 13TeV$. The energy measured in cells from the three TileCal radial samples and TileCal E cells (Gap+Crack scintillators) is used. The red bands for $\eta>1.2$ refer to the TileCal special E cells response. In this region and for positive $\eta$ the blue bins are the response for A cells for extended barrel modules EBA40 and EBA63 where the readout channels of E cells are masked.
Contact: joao.gentil.saraiva@SPAMNOTcern.ch
Reference: ATL-COM-TILECAL-2016-029
Date: 07 July 2016

eps
The number of events in TileCal A cells with energy over a threshold of 300 MeV in run 299184 using 2016 collision data at $\sqrt{s} = 13TeV$.
Contact: joao.gentil.saraiva@SPAMNOTcern.ch
Reference: ATL-COM-TILECAL-2016-029
Date: 07 July 2016

eps
The number of events in TileCal BC cells with energy over a threshold of 300 MeV in run 299184 using 2016 collision data at $\sqrt{s} = 13TeV$.
Contact: joao.gentil.saraiva@SPAMNOTcern.ch
Reference: ATL-COM-TILECAL-2016-029
Date: 07 July 2016

eps
The number of events in TileCal D cells with energy over a threshold of 300 MeV in run 299184 using 2016 collision data at $\sqrt{s} = 13TeV$.
Contact: joao.gentil.saraiva@SPAMNOTcern.ch
Reference: ATL-COM-TILECAL-2016-029
Date: 07 July 2016

eps
The number of events in TileCal E cells (Gap+Crack scintillators) with energy over a threshold of 300 MeV in run 299184 using 2016 collision data at $\sqrt{s} = 13TeV$.
Contact: joao.gentil.saraiva@SPAMNOTcern.ch
Reference: ATL-COM-TILECAL-2016-029
Date: 07 July 2016

eps
The number of events in TileCal A,B/C and D cells with energy over a threshold of 300 MeV in run 299184 using 2016 collision data at $\sqrt{s} = 13TeV$.
The energy measured in cells from the three TileCal radial samples is used.
Contact: joao.gentil.saraiva@SPAMNOTcern.ch
Reference: ATL-COM-TILECAL-2016-029
Date: 07 July 2016

eps