1 Status of GLC Physics and Detector Studies Akiya Miyamoto KEK, IPNS 20 February 2004.
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Transcript of 1 Status of GLC Physics and Detector Studies Akiya Miyamoto KEK, IPNS 20 February 2004.
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1
Status of GLC Physics and Detector Studies
Akiya MiyamotoKEK, IPNS
20 February 2004
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2A.Miyamoto, LCPAC, 2004/02/20
Contents
Physics studies LC Physics Study Group Higgs
Detector R&D R&D goals Vertex Tracker Calorimeter
Machine-Detector issues Summary
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3A.Miyamoto, LCPAC, 2004/02/20
LC Physics Study Group
LC Physics Study group has been formed since April 2003. Joint activities of experimentalists and theorists Objectives:
Physics case of LC during LHC era. LC and Cosmology connection Physics case at 1 TeV.
Sub-groups: Higgs, New Physics, Top, Luminosity 3 group wide meetings, lectures, and many sub-group m
eetings. Results were presented at 6th ACFA and will be presente
d at LCWS2004.
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4A.Miyamoto, LCPAC, 2004/02/20
Higgs sub-group Objectives
Higgs mass, width, … Self-coupling Top yukawa coupling Heavy Higgs (MSSM, THDM), …
Find out how well we can measure these observables and detector requirements to obtain best results
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5A.Miyamoto, LCPAC, 2004/02/20
Higgs self coupling
A systematic study of many processes, , , , , , ,...e e ZH H eeH ZHH ttH WWH HH
Our approach: Develop LCGrace ( includes final 6f. 8f in future)
Total > 30 processes Develop a common interface to detector simulators
Signal process Confirm theoreticalresults by Y.Okada et.al.
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6A.Miyamoto, LCPAC, 2004/02/20
Sample events
e e t t H e e HH
Simulation studies just begun !
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Detector R&D
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8A.Miyamoto, LCPAC, 2004/02/20
GLC Detector Concepts Detector requirements
Efficient & High purity b/c tagging
Momentum resolution:
For Higgs detection regardless of its decay mode.
Calorimeter:For W and Z separation in hadronic decay mode.
Hermeticity:For indirect measurements of invisible particles
Good background masking and time stamping capability
5/ 5 10T T Tp p p
/ 30%/ jet jet jetE E E
10veto a few mrad
ACFA report,KEK Report 2001-11
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9A.Miyamoto, LCPAC, 2004/02/20
CCD Vertex Detector
Collaboration KEK, Niigata, Tohoku, Tohoku Gakuin,
Toyama Collage of Maritime Tech.
Challenges of Vertex Detector R&D 4~5 layers of thin(<100m) pixel detectors from ra
dius of 1~2cm and position resolution of ~3m.
Fast readout Radiation hard
2/310~ 5sin
IPp
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10A.Miyamoto, LCPAC, 2004/02/20
CTI by 90Sr and 150MeV e- Beam
150 MeV e-
90Sr
NIEL models
CTI by H.E.e-
is 2~3 times smallerthan model expectations
Ee(MeV)
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11A.Miyamoto, LCPAC, 2004/02/20
Effect of Fat-zero Charge
CTI is 4~6 x smaller by fat zero charge injection
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12A.Miyamoto, LCPAC, 2004/02/20
Study of charge spread in CCD
Diffusion of electrons in epitaxial layer Key of excellent spatial reso
lution for CCD ( and CMOS ) Takes time to diffuse : How long do we have to wait
for the charge collection ? Measurement with IR LASER pulse at Niigata Univ.
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13A.Miyamoto, LCPAC, 2004/02/20
Measurement of charge diffusion
The timing of laser injection was delayed and measured the time required to get full charge
Delay of laser injection(nsec)
Consistent with Diffusion constatnt(D) =37cm2/s@300K Laser injection
(=1064nm)
CCD 10m epi-layer
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14A.Miyamoto, LCPAC, 2004/02/20
Implication to readout timing
The measured data is consistent with the expectation for the diffusion length of
d = sqrt(Dt) ~ 20m @ t=100ns For the sensors with 20m epi-layer, we should wait f
or the diffusion at least 100ns Readout speed requirement for the vertex detector at
cold machine is even more severe 50 MHz (original requirement)
50x337ns/(337ns-100ns) = 70MHz
Vertex detector at cold machine is very challenging
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15A.Miyamoto, LCPAC, 2004/02/20
Future Plan Objective:
Fabrication of prototype sensors and ladders for a vertex detector which can achieve the impact parameter resolution of b=510/(psin3/2) m Thin wafer to minimize multiple scattering Put as close to IP as possible Radiation immunity Fast readout Multi-port readout (need ASIC) Other technology if cold technology is selected 3 years project
Partially thinned structure Multi-port readout
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16A.Miyamoto, LCPAC, 2004/02/20
Tracker Collaboration
Hiroshima, KEK, Kinki, Kogakuin, Saga, TUAT, Tsukuba, MSU
First choice was Small Cell Drift Chamber, Compare to Silicon based tracker,
Thinner material and redundancy due to many sampling Compare to TPC with MWPC readout
Enough spatial resolution to achieve resolution goal
Standalone T0 determination
2 4/ 1 10 ( )T Tp p CDConly
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17A.Miyamoto, LCPAC, 2004/02/20
Selected results of CDC R&D
Degradation due to O2 contamination.Without O2, ~90m
4.6m-long chamber: Spatial resolutionTwo-track efficiency
Good for >2mm
B dependence of Lorentz angle
tan 0.159 0.002 tan
B(Tesla)
Straight cell is OK Up to ~ 3T
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18A.Miyamoto, LCPAC, 2004/02/20
Time stamping capability
CDC: self t0 reconstruction by staggered cell TPC: by Z coordinate matching with an external device
Simulation of T0 reconstruction: Signal on random background
CDC(p=1GeV)~2.2ns
TPC+(p=1GeV)~3.8ns
Note: GLC bunch separation is 1.4nsecT0(nsec)
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19A.Miyamoto, LCPAC, 2004/02/20
New direction of Tracker R&D
Tracker group considers initial R&D goals has been achieved.
Instead of go in to the next step of engineering studies, tracker group thinks it important to seek for other possibilities: TPC with Micro Pattern Gas Detector readout
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20A.Miyamoto, LCPAC, 2004/02/20
Micro Pattern Gas Detector Example: GEM
70 µm
140 µm
Electrons are amplifiedby a strong field at holes
Why MPGD ? Spatial resolution and 2-hit separation similar to CDC Less sector boundary than MWPC-TPC Can operate with B>3T TPC can be used in “cold machine”
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21A.Miyamoto, LCPAC, 2004/02/20
Plan of TPC R&D
R&D goals Develop large area a Micro Pattern device Operate in B-field and confirm performance Develop high density, low mass readout
Collaboration for TPC R&D CDC collaboration + Tokyo + … Internationally, work together with Munich,
LBL, ….
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22A.Miyamoto, LCPAC, 2004/02/20
Calorimeter R&D Collaboration:
KEK, Kobe, Konan, Niigata, Shinshu, Tsukuba
International Collaboration: JINR/DLNP, Russia:
KEK/IPNS and JINR have concluded on MoU on linear collider detector R&Ds in July 2003.
Based on this MoU, fabrication of test modules are in progress. They will be tested at KEK in March 2004.
DESY, Germany: Co-works with DESY-HCAL group are in progress on photon dete
ctor R&D and on beam test programs. Our shower position detectors were tested at DESY in collaborat
ion with DESY-HCAL group in Sep. 2003. They will participate in our beam test at KEK in March 2004,
with their photo-detectors
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23A.Miyamoto, LCPAC, 2004/02/20
Goal of Calorimeter R&D Design criteria to achieve 2-jet mass resolution sufficient to separate
W and Z. Good energy resolution for single particles Fine transverse and longitudinal granularity for PFA Operational in strong magnetic field – Photon detector Hermeticity
Baseline design Lead/plastic scintillator sampling calorimeter for ECAL/HCAL
4cmWx4cmHx1mmT-sci. + 4mmT-Pb Hardware compensation for excellent hadron energy resolution and
linearity Optional design
Strip-array ECAL, 1cmHx20cmWx2mmT-Sci Strip-array ECAL has been tested since 2002
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24A.Miyamoto, LCPAC, 2004/02/20
ECAL Beam tests Objectives
Study uniformity for the simulator inputs Resolutions of energy, position, and shower direction Examine 2-cluster separation and ghost-rejection
Three tests in series since Fall of 2002 2002: T517 at KEK (e//, 1-4 GeV)
tile/fiber ECAL, strip-array ECAL, sinti-strip Shmax 2003: Test at DESY ( e, 1-6 GeV)
Scinti-strip SHmax with WLS-fiber and APD readout. 2004: T545 at KEK ( e//, 1-4 GeV)
Compare several readout, HAPD, APD, SiPM, EBCCD,.. Check performance of tile/fiber made by JINR.
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25A.Miyamoto, LCPAC, 2004/02/20
ECAL beam test setup
DESY ST21DESY ST21
Strip-array with direct mount APD
Strip-array ECAL
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26A.Miyamoto, LCPAC, 2004/02/20
Beam test results
Energy resolution:Consistent with MC if photonstatistics are taken into account.Design criteria satisfied
Position resolution:Best at shower maximum~ 2mm for 4GeV electron
Angular resolution:Angle of shower axis is determined by a linear fit of first 5SL.~50mrad for 4GeV electron
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27A.Miyamoto, LCPAC, 2004/02/20
Photon detector R&D Photon-detectors are now the most essential component of any
plastic scintillator-based calorimeters Following devies are tested in JFY2003.
APD Multi-channel HPD Multi-channel HAPD EBCCD SiPM
APD(Hamamatsu S8864-55) were already used for the strip-array detector, satisfactory
Others are tested in March 2004 beamtest
EBCCD
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28A.Miyamoto, LCPAC, 2004/02/20
Plan of CAL study in 2004 Carry out full simulation study (based on
Geant4) to get optimum parameters for ultimate calorimeter performance
Fully understand and establish design and performance of tile/fiber calorimeter based on the test module construction experience and test beam data so far
Continue photon detector R&D’s and find best device: High gain, Operate in B field, timing
information, Low cost, availability, …
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29A.Miyamoto, LCPAC, 2004/02/20
IR and BDS Issues
Issues covered by IR and BDS studies Estimation of background in Detectors Nanometer stabilization Beam parameters Beam delivery system Interaction region and dump line Stabilization R&D Instrumentation R&D …
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30A.Miyamoto, LCPAC, 2004/02/20
FEM analysis of Support tube
fres shifts
Support near IP is crucialFEM calculation consisten with a test by 1/10 model Next step is to test a real size model.
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31A.Miyamoto, LCPAC, 2004/02/20
FEATHER
Test of the system has started at the ATF extraction line.
Feedback AT High EnergyRequirements
IP BPM proc.&
BPM
Kicker
Simulation results
N.Delerue
Bunch numberB
eam
off
set
Turns on feedbackafter 10 bunches
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33A.Miyamoto, LCPAC, 2004/02/20
Test of Kicker performances (at low frequency)
Kicker pulses were fed from upstream and down stream of the kicker and kick intensity is compared
Larger kick intensity is seen when the pulse is fed downstream. This is qualitatively
consistent with theoretical expectation.
Quantitative disagreement would be due to miss alignments of beam and kicker strip.
Study continues to stabilize the beam at ATF by this Autumn.
Kicker gap
Kic
k in
tensi
ty(
m)
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34A.Miyamoto, LCPAC, 2004/02/20
Time scale of Detector R&D
Now accelerator activities are pursued under the global framework International Technology Recommendation Panel 2004 Global Design Organization 2005 2008
Detector time scale has been discussed by WWS and ILCSC. “CDR” should be prepared timely with GDO Technology study Global Detector Collaboration
Next 3 years:Select detector technology
http://www-conf.slac.stanford.edu/alcpg04/Plenary/Saturday/Session1/Yu_TestBeam.pdf
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35A.Miyamoto, LCPAC, 2004/02/20
Summary LC Physics study group has been formed and new activities
are initiated. Detector R&D continues:
VTX: Radiation hardness by H.E. electrons, charge diffusion
Tracker: CDC TPC
Calorimeter: Strip-array EM-Cal, photon detectors
These studies shall be converged to “CDR” in ~3 years Detector-Machine issues
Support tube R&D Full scale test FEATHER at ATF
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36A.Miyamoto, LCPAC, 2004/02/20
Backup slides
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By Y.Yasui
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39A.Miyamoto, LCPAC, 2004/02/20
Achievement in 2003 Study of radiation tolerance of CCDs
Jul. - Oct. : High energy (150MeV) electron irradiation test at LNS (Tohoku)
Energy dependence of radiation damage effect on CCDs has been shown.
Generation of hot pixels was observed. Demonstration of effect of ‘Fat-zero’ charge injection
Beam background simulation With 20mrad crossing angle Off-axis collision
Study of charge spread in CCDs Development of cPCI ADC & DAQ system Study of thin CCD wafers
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40A.Miyamoto, LCPAC, 2004/02/20
R&D items of CDC
Can we control gravitational and electrostatic wire sags for a 4.6m-long wires ?
Can we achieve a spatial resolution of 85 microns everywhere in the big chamber ?
Can we achive 2-track separation better than 2mm ? Can we stably operate 4.6m-long stereo cells ? Is Lorents angle small enough to allow straight cells ? Is gas gain saturation observed for cools gas mixtures n
o problem ? Is tension drop controllable for Al wires ? How well can we time-stamp bunches ? Is neutron BG not serious ?
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41A.Miyamoto, LCPAC, 2004/02/20
Score of CDC R&D items
Can we control gravitational and electrostatic wire sags for a 4.6m-long wires ?
Can we achieve a spatial resolution of 85 microns everywhere in the big chamber ?
Can we achive 2-track separation better than 2mm ? Can we stably operate 4.6m-long stereo cells ? Is Lorentz angle small enough to allow straight cells ? Is gas gain saturation observed for cools gas mixtures n
o problem ? Is tension drop controllable for Al wires ? How well can we time-stamp bunches ? Is neutron BG not serious ?
Yes
Yes
YesYes
Yes
Yes
Yes
OKf orB 3T
???
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42A.Miyamoto, LCPAC, 2004/02/20
CAL. Simulation studies
Particle reconstruction at LC is very challenging and extensive simulation study is mandatory.
Nevertheless, it has had lower priority to complete beam test before PS shutdown
Geant3 based full simulator has been in operation for years
This year, strip-array EMCal is implemented in Geant3 framework and performance studies are carried out.
But particle flow algorithm is not working well yet. This will be a main objective of coming years.
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43A.Miyamoto, LCPAC, 2004/02/20
Stabilization R&D: Support tube
Two models are compared by FEM
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44A.Miyamoto, LCPAC, 2004/02/20
Test of FEM by 1/10 model