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CMS HL-LHC Endcap Calorimeter: A Child of CALICE
Americas Workshop on Linear Colliders 2017
June 26, 2017Jeremiah Mans
University of Minnesota
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 2
LHC → HL-LHC and the Higgs
◾ Discovery of the Higgs was the exciting and defining event of LHC Run I
◾ Run I was pretty easy on the detectors● Peak luminosity of 0.7 x 1034 cm-2s-1,
compared with design of 1034 cm-2s-1
● Lower pileup cross-section and multiplicity due to lower center of mass energy
● Bunches spaced by 50ns compared with 25ns
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 3
LHC → HL-LHC and the Higgs◾ HL-LHC Physics goals in the Higgs sector
● Unraveling the true nature of EWSB● Precision measurement of the Higgs Sector● Observation of HH production, constraints on self-coupling ● Rare (μμ, Zγ…) or forbidden H
125 decays (μτ…)
● Unitarity via Vector Boson Scattering
Very high luminosityrequired!
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 4
Challenge: Radiation Tolerance
(Pre-Shower + ECAL+HCAL)
HCAL Endcapup to 30 kGy
Pre-Shower + ECAL Endcapat ~3: 1.5 MGy, 1016
n/cm2
3000 fb-1 Absolute Dose map in [Gy] simulated with MARS and FLUKA
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 5
Child of CALICE in the Endcap
Technical ProposalCERN-LHCC-2015-010
Concept is heavilybased on the simulation and testbeam studies of
the CALICE collaboration
Endcap Electromagnetic (EE):Si + Cu & CuW & Pb28 layers, 25 X0 & ~1.3λ
Forward Hadronic (FH):Si and scintillator + Steel12 layers, ~3.5λ
Back Hadronic (BH):Si and scintillator + Steel12 layers, ~5λ
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 6
ILC/LHC Contrasts◾ Continuous-mode
operation required for CMS● Many-hour fills in a
circular collider with 25 ns bunch spacing, compared with more-widely spaced bunches and lower frequency pulses of ILC
● Implication: power and cooling are much more important for CMS than for CALICE
● CMS: 125 kW cooling requirement
◾ Collision environment● Silicon technology
motivated in CMS initially by radiation tolerance, secondarily by performance potential
● Managing pileup is a critical physics task to pick out true low p
T
jets (weak-scale) from fakes produced by pileup fluctuations
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 7
Mixed-mode Calorimetry
◾ Dose rates along the beamline are quite high due to both geometry and effect of particles scattering off the beampipe
◾ Plastic scintillator cannot operate reliability for the life of HL-LHC in this region
◾ The CMS design places the full detector into the cold volume, allowing a flexible boundary between silicon (in high-dose regions) and scintillator (lower cost for low-dose regions)
◾ Dedicated studies have demonstrated that the radiation tolerance of plastic scintillator is not affect at low temperature
Approximate boundary for “comfortable”
operation of scintillator
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 8
Cassette Structure◾ Each calorimeter layer
contains a copper plate with embedded CO
2 cooling pipe at
its core
● In the EM section, Si modules are mounted on both sides of the cassette
● In the hadronic section, Si and scintillator modules are mounted on only one side of the cassette
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 9
Silicon Sensors◾ R&D Sensor characteristics
● Sensor size of 6” (final target is 8”)
● Cell sizes of ~0.5 cm2 and ~1 cm2
● Cell capacitance of ~50 pF
◾ Some design details
● 1kV sustainability to mitigate radiation damage
● R&D sensors have four quadrants to study inter-cell gap distance and its influence on V
bd , C
int and
CCE
● Inner guard ring is grounded, outer guard ring is floating
● Calibration cells of smaller size for single MIP sensitivity at end of life
Calibrationcell
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 10
Silicon PerformanceFull-sensor probe station at CERN
Silicon provides the necessaryradiation tolerance for HL-LHC in both amplitude and timing measurements
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 11
Silicon Modules
Modules with 8” Hexagonal Si sensors,
PCB, FE chips, on W/Cu baseplate
To cope with the irradiation / PU: -dependent depletion of Si -dependent cell size
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 12
Front-End ElectronicsNeed to have large dynamic range @ low power + low noise
Trigger path reduces granularity and precision for L1 decision
TOT and TOA implemented in SkiROC2-CMS, moving towards
full chip in HGCROCv1
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 13
Trigger
HGCROC
Concentrator ASIC
~ 300 Tb/s
◾ On-detector
● HGCOC reduces granularity and energy resolution
● Concentrator selects fraction of trigger cells from several modules and also sends whole-module sums
◾ Endcap trigger primitive generation
● Build 2d clusters for each layer
● Link clusters in 3d to create electromagnetic and hadronic clusters
◾ CMS trigger
● Combine with other CMS detectors
● L1 Trigger decision
TPG Layer 1
TPG Layer 2
~ 20 Tb/s
~ 60 Tb/s
Track Trigger
Correlator
Global Trigger
~ 2 Tb/s
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 14
Scintillator Section
◾ Low temperature in the calorimeter volume suppresses radiation-induced noise in the SiPMs, allowing use of SiPM-on-tile technology similar to the CALICE AHCAL
● MIP S/N>3 for all cells through HL-LHC
◾ Layout of cells takes advantage of natural r/phi geometry of endcap to increase MIP signal at small radius where radiation-damage is greatest
◾ Electronics design will be common with silicon section of the detector
Conceptual Drawing
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 15
CO2 Cooling
Thermal Mock-up with tests (CO2 Cooling stations at FNAL, IPNL)
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 16
Testbeam Proving Ground
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 17
Testbeam Configurations
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 18
Electron Profiles from Testbeam
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 19
Linearity and Resolution
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 20
Full-Detector Calibration and Performance
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 21
Calibration by MIPs
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In addition, for redundancy: Low-capacitance/low-noise cell included
in each wafer for calibration
“MIP” Tracking (“punch through”) Require signal in layer before/after + isolation Can be done on any readout (L1, offline)
Tested in MC minimum-biased sample with <NPU>=140
Need 1.5M events to reach 3% precision (takes ~ 1 day)
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 22
Electromagnetic Performance
Shower radius quite small in first layers.Can use longitudinal segmentation for
PU rejection, …
EM shower energy containment
Stochastic term: ~20% but low constant term (target: 1%)
Endcap calorimeter – E/ET factor
between 2 and 10
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 23
EM Id Performance
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High Granularity + longitudinal segmentation gives additional powerful handles for particle ID:• shower start, shower length compatibility,
restoration of projectivity, 3D shower profile fits,layer-by-layer PU subtraction, etc…
Shower width in
Signal (Zee)Background (QCD)
Photon ID
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 24
Jet Reconstruction
Jet Energy Resolution vs Jet Fake Rate
Reconstruction of ET ~30 GeV jets is
important for vector-boson-scattering measurements
Jet performance at 140 PU is already quite comparable to the original detector at 50 PU• Particle flow reconstruction is not fully
optimized yet
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 25
Timing Potential
◾ TDC capability of the HGCROC provides timing information to improve pileup rejection and help drive appropriate reconstruction
◾ 2017 Testbeam campaign using SKIROC-CMS will allow first studies of timing in fully-developed hadron showers
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 26
Project Timeline Now in R&D phase
Fast progress since Technical Proposal (mechanics, sensors & modules, FE, …) Several test beams session this year and last year (FNAL, CERN) TDR expected end of 2017, including key technical choices Construction starts in ~2019
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June 26, 2017 CMS HL-LHC EC :: AWLC17CMS HL-LHC EC :: AWLC17 27
Summary◾ CMS has decided to respond to the severe challenges
of the HL-LHC by adopting technologies pioneered by the CALICE group to create a new endcap calorimeter
● Silicon/tungsten electromagnetic calorimeter● Mixed-mode hadronic calorimeter
● Silicon-based sensing in high-radiation zones● SiPM-on-plastic-scintillator-tile sensing in low-radiation
zones
◾ The CMS HL-LHC EC project has exciting physics potential and poses many interesting technical challenges
● We are benefiting from the experience and ongoing developments associated with the linear collider program