Download - 1 Physics and Detector Studies in Japan Akiya Miyamoto KEK ILC Korea meeting @ PAL 17 February 2006
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Physics and Detector Studies in Japan
Akiya MiyamotoKEK
ILC Korea meeting @ PAL17 February 2006
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Physics Scenario at ILC
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Vertexing ~1/5 rbeampipe,~1/30 pixel size (wrt LHC)
Tracking ~1/6 material, ~1/10 resolution (wrt LHC)
Jet energy (Higgs self-coupling, W/Z sep. in SUSY study) ~1/2 resolution (wrt LHC)
3/ 25 10 / sinip m m p
5(1/ ) 5 10 / GeVp
/ 0.3 / ( )GeVE E E
(http://blueox.uoregon.edu/~lc/randd.pdf)
(h bb ,cc , )
(ee Zh X; incl. h nothing)
Or better
ILC Detector Performance Goals
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Detector for ILC experiments
Good jet energy resolution calorimeter inside a coil highly segmented calorimeter
Efficient & High purity b/c tagging Thin VTX, put close to the IP Strong solenoid field Pixel type
High momentum resolution
Hermetic down to O(10)mrad
Shielded enough against beam-related background
Detector design Philosophy
Muon detector
Calorimeter
Tracker Vertexdetector
Coil
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Concepts - Technologies
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GLD Concept Pixel vertex detector + Si tracker, self-tracking capable Large gaseous central Time Projection Chamber (TPC) Large radius, “Medium/High” granularity ECAL: W-Scitillator “Medium/High” granuality HCAL: Pb-Scintillator inside 3T solenoid
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Comparison to other concepts
GLD: Large ECAL radius good for better jet energy resolution
GLDLDCSiD
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Our Activities
Concept Study GLD : as an inter-regional team DOD Home page: http://ilcphys.kek.jp/gld/
Software studies Simulation and Reconstruction based on full simulation
Vertex Detector
TPC
Calorimeter
Some topics of recent activities will be presentedApologies for not covering all
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Software activities
Development of tools and studies based on them Geant4 based full simulator, Jupiter and analysis tools, Satellites Study items
Particle Flow Analysis– By cheated method– By realistic method– Performance comparison: digital vs analog, tile size, etc.– Better understanding of hadron shower programs
Tracking– Khalman track fitter for TPC/IT/VTX– Track reconstruction
Backgrounds in tracker Physics performances
They will be described in the GLD DOD in detail
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Detector GeometryFull One Tower EM + HD
27 X0
6.1λ
New Geometry in Jupiter(Feb, 2006)
in Dec. 2005
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Perfect PFA
Perfect track-calorimeter matching based on Monte Calor Info. Shower fluctuation, particle interactions with material fully simulated
Identify terms contributing to the resolution to design the best detector
including a best kink track treatment: improves kink ~ 1.3 GeV
u,d,s quark pairEvents at Z pole
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PFA : error source
Contribution to Jet Energy Resolution
Neutrino 0.30 GeV5mrad cut 0.62Low Pt track 0.83 TPC Resol. 0EM Cal Resol. 1.36HD Cal Resol. 1.70Total 2.48
Effect of Pt cut
Important to measure low Pt track for the best energy resolution !
B=6T
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e+
e-
Realistic PFA Critical part to complete detector design
Large R & medium granularity vs small R & fine granularity Large R & medium B vs small R & high B Importance of HD Cal resolution vs granuality …
Algorithm developed in GLD: Consists of several steps MIP finding Gamma Finding Small-clustering Cluster-track matching Neutral hadron clustering
Red : pionYellow :gammaBlue : neutron
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PFA performance so far
Z-pole events Further improvement nece
ssary to Achieve 30%/Sqrt(E) Similar resol.
At higher energy Optimize detector w.r.t
jet energy resolution
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Higgs Study
e+e- ZH 4-jet or 2-jet + missing : Studied assuming the cheated PFA performance, using QuickSim Study assuming the realistic PFA performance is in progress Other channels such as ZHH or SUSY processes need to be studied
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Higgs mass : if Mh=120GeV; ,e e X e
Incl. beamstrahlung350GeV, nominal(Mh)~109MeV
Incl. beamstrahlung350GeV, high-lum(Mh)~164MeV
Incl. beamstrahlung250GeV, nominal(Mh)~27MeV
E/E(beam)~0.1%Differential Luminosity(500GeV)
min/ no als s
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Forward Region for SUSY Study
BCAL : Total Z length 20 cm 30 layers of 3mm thick Tungsten
+ 0.3mm thick Si. + Air gap
FCAL Front and Tail: 30 layers of 3mm Thick Tungsten + 0.3mm thick Si + Air gap
HDCAL
QC1
MUD
CH2 Mask TPC
EMCAL FCAL
BCAL
Response to 10GeV e+
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BackgroundLow energy e+e- pair background in BCAL region.
Simulated using CAIN data, 500 GeV, Nominal parameter~1/65 bunch of pair backgrounds are simulated
BCAL FCAL
e+/e- tagging in the forward region ? Needs serious study for SUSY physics
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VTX R&D in Japan
Challenge of ILC Vertex detector To achieve performance goal, vertex detector has to
Thin(< 100mt si/layer) pixel device, pt < 5m, # layer > 3 Bunch spacing, ~300nsec, is too short to readout O(1) Giga pixels,
but occupancy is too high if accumulate 3000 bunches of data with a standard pixel size of ~ 20x20m2.
No proven technology exist yet. Candidates are, Readout during train
CPCCD, MAPS, DEPFET, … Local signal storage, and readout between train
ISIS, CAP, FAPS, … Fine Pixel, readout between train
FPCCD (5x5m2 pixel CCD) In Japan, we (KEK-Tohoku-Niigata collaboration) are proposing Vertex Detector us
ing Fine Pixel CCD (FPCCD) We believe FPCCD is the most feasible option among the proposed technologies
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FPCCD Chip
5m pixels, to reduce occupancy Promising, because Fine pixel CCD device exists already for optical applicatio
ns Fully depleted epitaxial layer to suppress charge spread by diffusion Multi-port readout with moderate (~ 15MHz) readout Low temperature operation to keep dark current negligible for 200msec re
adout cycle.
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FPCCD Vertex Detector
Baseline design for GLD
2 layers Super Layer, 3 super layers in totalminimize the wrong-tracking probability due to multiple scattering
6 layers for self-tracking capability Cluster shape analysis can help background rejection
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Background rejection by cluster shape
22 )()( SigBGSigBG WWWZWZdW
WZSig, WSig: Expected width
A big advantage of Fine Pixel Sensors
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B.G. rejection by cluster shape
R=20 mm Cut at dW=10 m
Z (mm)Z (mm)
All
dW<10m
Rat
io
1/20
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Status of sensor R&D Fully depleted CCD for astrophysics by Hamamatsu
24 m, 12 m pixel size: Available now We will test them soon : Charge spread, Lorentz angle
5 – 9 m pixel size: Under development Will be available in 0.5 – 1 year
Custom fully depleted FPCCD for VTX High speed (~15MHz) Multi-port readout We wish to start in 2006
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Challenge of TPC technology
Principle of TPC
Pad Plane
.. .......
Bz
E
CentralMembrane
Drift Time Z positionPosition at Pad plane
rposition
Challenges To achieve r<150m after long drif
t of > 2m MWPC MPGD readout
R&D issues Gas amplification in MPGD : GEM, Mi
croMegas Properties of chamber gas:
drift velocity, diffusion Ion feedback control
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TPC R&D
A series of beam tests has been done at KEK PS, to study performances Of TPC using readouts of MWPC, GEM, and MicroMegas
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Beamtest setup
KEK PI2 beamline
Beam
MPI Field Cage26cmL
Readout Pad10cmx10cmFor MWPC, GEM, MicroMegas
1T Magnet86cm, 1mL
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MWPC vs GEM
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B Field Dependance
Bfield improves spatial resolution significantly.
For long drift, diffusion term dominates the spatial resolution.
Calculated results of CD are more or less consistent with test results. probably OK to extrapolate to 3~4T need to be confirmed by future tests with large B field and long drift.
ILCTarget
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Data
zNDXX eff22
02 /
m53129
cmm/7.94.38/
0
eff
X
ND
12/ mm3.2
Comparison with Numerical Calculation
Neumerical Calculation (by K. Fujii) MicroMEGAS Pad : 2.3 mm Diffusion Constnat : 469, 285 and 193 for B = 0, 0.5 and 1.0 T Neff = 27.5 f : function
Data: MicroMEGAS B = 1 TGas: Ar-isobutane (5%)Pad: 2.3 mm Pads
pad-pitch dominant region asymptotic regiondiffusion dominant
cmm/
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Resistive Anode or Digital
Resolution with short drift length is dominated by Readout pad pitch Width of induced charge on pad plan
e.
To increase pad picth Digital TPC : O(100m) pad size
and readout Future possibility Increase signal width
Resistive anode pad readout, but two track separation might be scarified
KEK Beamtest : MicroMegas TPC and a registive anode readout
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Plan of TPC R&D
Study properties of MPGD, GEM and MicroMegas, and gas amplification mechanism well Simulation/ test bench studies
Study chamber gas properties and amplification in MPGD Drift velocity, diffusion constants, … For ILC application, gas with no H is preferred to reduce effects of neutro
ns background. Positive ion feed back has to be reduced sufficiently
Study properties of MPGD with large prototype EUDET
Design and develop a large TPC system with electronics.
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Calorimeter
Design goals Fine granularity, O(1) cm, for the best track-cluster matching
Crucial for best jet energy resolution Hermetic down to O(10)mrad Elemag and hadron calorimeters are both inside Coil
Challenge: Achieve sufficient granularity with a reasonable cost Optimize configuration to satisfy design goals. Develop best PFA. Hardware configuration best meats PFA algorithm
Our choice: Scintillator based calorimeter
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Calorimeter Configuration
EM Configuration : Tungsten-Scintillator Strip Large inner radius Small Moliere radius Fine Granuarity
Distance of from 0 at r=210cm
O(1) cm segmentation is necessary
HD CAL: Lead-Scinti. Sandwitch Active Sensor:
Strip/Tile combination
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GLD CAL Configuration
12 sided shape:
EM CAL
HD CAL
Readout cable goes between HD CAL module to minimize dead space in EM
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Photon Sensor R&D
Merits of Silicon Photon Pixel Sensor Work in Magnetic Field Very compact and can directly mount on the
fiber High gain (~106) with a low bias voltage
(25~80V) Photon counting capability
SiPM case:
O(100) pixels,Each pixel is inGeiger mode.# hit pixel = # input lights
~1cm
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>2000 pix For GLD
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Status and Plans on Calorimeters
ECAL large prototype in progress Sci-strip type
HCAL large prototype needs funding!
SiPM/MPPC promissing and testing in progress
More PFA study painfully needed Optimization for high-energy jets (granularity) Scintillator strip design works?
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(2005 end) Acc. BaselineConfiguration Document (BCD)
Detector R&D report
(2006,3) “Detector outline documents” (one for each detector concept)
(2006 end) Acc. Reference Design Report (RDR)
Detector Concept Report (DCR : one document)
(~2008) LC site EOI Collaborations form
~Site selection + 1yr Global lab selects experiments.
Accelerator Detector
Detector Timeline
By H.Yamamoto
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Summary
Detector Outline Document will be released soon. But there are many issues yet to be studied. Detector Concept Study will continue further towards DCR.
Studies of detector technologies are in progress for Vertex Detector, TPC, and Calorimeter. In all items, regional and inter-regional cooperation will be strengthened towards detector LOI/TDR in several years: Japan-Korea joint studies on Calorimeter EUDET: TPC and Calorimeter Calorimeter beam tests in FNAL with CALICE … more
Detector R&D needs more funding
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Backup slides
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More missing items
Muon system is probably easy in concept but difficult in practice (large system - support, etc.) - Missing R&D item!
Solenoid and compensation coil (DID - for large xing angle) : non-trivial problem to realize, and DID is a problem to solve for trackers and bkg.
Forward regions (endcap regions) are important for t-channel productions such as
Very forward regions (FCAL, BCAL) are critical for tagging electrons for SUSY pair creations : recently attacked by Korean groups (thanks!)
With the long train, DAQ is not a trivial problem (now P. LeDu alone for GLD)
Needs more people for beam background simulations
ee h
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Beam tests are crucial
Cal. Performance depends on cut values.
Reported to be solved in the latest Geant4 release (8.0)
Beam test and hadron shower simulation is not consistent. Can we use it for the design of highly segmented calorimeter ? Future beam test.
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Detector R&D plan
2006 : DOD 2006-2008 : Detector R&D
Budget : in Japan – applying several resources to get fund 4~5 year terms If founded, complete detector R&D -> to prepare detector TDR
In 2006, ACFA workshop ? Detector workshop ? Needs good organization …
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Coverage in Forward region
Crucial for stau search to reduce backgrounds due to two-photon process
Response to 10 GeV e+
No-crack now, BUT
Dead spaces has to take into account more seriously
Can we detect even in huge beam-beam background ?
cos
EMCAL FCAL BCAL