CDC Upgrade0 20 40 60 80 100 0 5 10 15 20 25 30 35 40 45 50 E41R1128 HER 1.24A LER 1.7A Layer of CDC...
Transcript of CDC Upgrade0 20 40 60 80 100 0 5 10 15 20 25 30 35 40 45 50 E41R1128 HER 1.24A LER 1.7A Layer of CDC...
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CDC Upgrade
Beam background Simulation studyIdea for upgradeUpgrade planSummary
Shoji Uno (KEK)
Mar-20th, 2008
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E41R1128
HER 1.24ALER 1.7A
Layer of CDC
Hit
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(kH
z)Hit rate
10KHz
Apr.-5th ,2005IHER = 1.24AILER = 1.7ALpeak = 1.5x1034cm-2sec-1
ICDC = 1mA
Main
Inner
Small cell
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Hit rate at layer 35410I**2 + 1400*I + 80
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HER Beam Current(A)
Ηit rate
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740I**2 + 470*I + 80
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LER Beam Current(A)Ηit Rate
(Hz)
IHER = 4.1A Hit rate = 13kHzILER = 9.4A Hit rate = 70kHz Dec., 2003 : ~5kHz
Now : ~4kHz
Dec.,2003
In total 83kHz
HER LER
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Simulation Study for Higher Beam Background
10 cm
BELLE
10 cm
BELLE
MC+BGx20
by K.Senyo.
MC +BGx1
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Jan24-26, 2008 BNM2008 Atami, Japan 5
BG effect on analysis
Major loss come from low tracking efficiency on slow particlesEfficiency loss on high multiplicity event is seriousPulse shape information by FADC readout can save efficiencySVT standalone tracker will be a great help (not included in this study)
B Eff Ratio-1Nominal 56.8 % 0.0 %×5 BG 56.0 % -1.5 %×20 BG 49.0 % -13.8 %
With 40% shorter shaping×20 BG 51.4 % -9.5 %
)()( −+→→ ππμμψ SK/J )( ππ 3KD,DDDD s*** →→
B Eff Ratio-1Nominal 6.48 0.0 %×5 BG 5.69 -12.2 %×20 BG 2.28 -64.9 %
With 40% shorter shaping×20 BG 3.86 -40.5 %
By H.OzakiPreliminary
Talk by T. Kawasaki
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Background effect on tracking
6
)( ππ 3KD,DDDD s*** →→
Many low momentum tracks, the hardest case for tracking
Gain in reconstruction efficiency of B D*D*
H. OzakiBNM2008
Excellent with help of SVDExcellent with help of SVD
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Idea for upgradeIn order to reduce occupancy,
Smaller cell sizeA new small cell drift chamber was constructed and installed. It has been working, well.
Faster drift velocityOne candidate : 100% CH4
Results show worse spatial resolution due to a large Lorentz angle.A beam test was carried out under 1.5T magnetic field.
So far, no other good candidate.
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Small Cell Drift Chamber
102
116
sense wirefield wire
unit : [mm]
128
normal cell
16.
0 5
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13.3
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small cell
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Photo of small cell chamber
Installation in 2003 summerJust after wire stringing
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XT Curve & Max. Drift TimeSmall cell(5.4mm)Normal cell(17.3mm)
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Distance from sense wire (cm)
Drif
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Distance from sense wire (cm)
Drif
t tim
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Chamber Radius
Inner radiusPhysics : Vertexing efficiency using Ks SVD determines the boundary.At present, the boundary is 15cm in radius.
Outer radiusNew barrel PID device determines the outer radius.At present, 115cm is selected, tentatively.
The boundary condition is important to start construction.
Basically, CDC can manage any radius.
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Wire configuration 1
Super-layer structure6 layers for each super-layer
at least 5 layers are required for track reconstruction.Even number is preferred for preamp arrangement on
support board to shorten signal cable between feed-through and preamp.
Additional two layers in inner most super-layer and outer super-most layer.
Higher hit rate in a few layers near wall.Inner most layer and outer most layer are consider as
active guard wire.
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Wire configuration 2
9 super-layers : 5 axial + 4 stereo(2U+2V)A 160*8, U 160*6, A 192*6, V 224*6, A 256*6, U 288*6, A 320*6, V 352*6, A 388*8
Number of layers : 58Number of total sense wires : 15104Number of total wires : ~60000
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Deformation of endplateNumber of wires increase by factor 2.
Larger deformation of endplate is expected.It may cause troubles in a wire stringing process and other occasions.
Number of holes increases, but a chamber radius also enlarges. Cell size is changing as a function of radius to reduce number of wires.
The fraction of holes respect to total area is not so different, as comparing with the present CDC.
11.7% for present CDC12.6% for Super-Belle CDC
In order to reduce deformation of endplates,The endplate with a different shape is considered.Wire tension of field wires will be reduced.
Anyway, we can arrange the wire configuration and can make a thin aluminum endplate.
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Curved Endplate
Deformation of endplate due to wire tension was calculated at design stage of present Belle CDC.
Deformation(mm) 35.2 2.03 1.31
Present New
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Baseline design
CDC
SVD
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Main parameters
Present FutureRadius of inner boundary (mm) 77 160Radius of outer boundary (mm) 880 1140Radius of inner most sense wire (mm) 88 172Radius of outer most sense wire (mm) 863 1120Number of layers 50 58Number of total sense wires 8400 15104Effective radius of dE/dx measurement (mm) 752 978Gas He-C2H6 He-C2H6Diameter of sense wire (μm) 30 30
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Expected performanceOccupancy
Hit rate : ~100kHz ~5Hz X 20Maximum drift time : 80-300nsec Occupancy : 1-3% 100kHz X 80-300nsec = 0.01-0.03
Momemtum resolution(SVD+CDC)− σPt/Pt = 0.19Pt ⊕ 0.30/β[%] : Conservative− σPt/Pt = 0.11Pt ⊕ 0.30/β[%] : Possible 0.19*(863/1118)2
Energy loss measurement 6.9% : Conservative6.4% : Possible 6.9*(752/869)1/2
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About readout electronicsAt present,
S/QT + multi-hit TDCS/QT : Q to Time conversionFASTBUS TDC was replaced with pipeline COPPER TDC.
Three options,High speed FADC(>200MHz)Pipeline TDC + Slow FADC(~20MHz)ASD chip + TMC(or new TDC using FPGA) + slow FADC near
detector. ASIC group of KEK Detector Technology Project is developing new ASD chip. New TDC using FPGA is one candidate for TDC near detector.
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ASD chip
Gain : ~7V/pC
Integration time : 1nsec1/t tail cancel. PZC
20nsec
Fe-55 5.9keV X-ray
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New electronics ( just my idea )
All electronics should be located near the end plate.
ASD ASIC chip 4ch/chip
daughter board4 chips/board
Slow FADC for Pulse Height measurement
FPGA for trigger
FPGA for time measurement
FPGA for FADC control
Main Board
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Summary
When Belle group decides the upgrade plan, we can start construction of the new chamber soon.
It takes three years to construct the chamber.
Outer radius( and inner radius) should be fixed as soon as possible.
Barrel PID determines the schedule.Inner radius should be determined by SVD.Supporting structure should be discussed.
One big worry is man power.I hope many people join us when the upgrade plan starts.
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My Personal Plan for Construction
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Radiation Damage Test
a: ’93 Plastic tube d: ’94 SUS tubeb: ’93 Plastic tube + O2 filter e: ’94 SUS tube + O2 filterc: ’94 Plastic tube f: ’94 Plastic tube
Total accumulated charge on sense wire(C/cm)
Gai
n de
grad
atio
n
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Test chamber and beam testA test chamber with new cell structure was constructed.
Part of inner most 20 layer( 8 layers with small cell + 12 layers with normal cell)
A beam test was carried out in the beginning of June at π2 beam line of 12GeV PS.
We confirmed the simulation for pure CH4 is correct. Velocity under 1.5T is not faster than the present gas and the drift line is largely distorted due to larger Lorentz angle. Similar performance could be obtained using new S/QT module withless dead time. Many data were taken using 500MHz FADC, which was developed by KEK electronics group. Now, a student is analyzing data. We hope to get information about minimum necessary sampling speed for timing and dE/dx measurement.
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xt curve for new gas(7mm cell)
Distance from wire (cm)
Pure CH4
100nsec
Distance from wire (cm)
Drif
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Dr if
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He/C2H6 = 50/50
100nsec
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Wire chamber Wire chamber is a good device for the central tracker.
Less material Good momentum resolution.Cheap It is easy to cover a large region.Established technology Relatively easier construction.Many layers Provide trigger signals and particle
ID information.
Wire chamber can survive at Super-KEKB.Our answer does not change after the last WS in 2004.
The beam background became smaller even for higher beam current and higher luminosity.We recognize the luminosity term is small, clearly.
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CDC Total CurrentMaximum current is still below 1.2mA, even for higher stored current and higher luminosity.
Vacuum condition is still improving.
Thanks KEKB people for hard work.I hope there is still room to improve vacuum condition further.
CDC current vs Beam current
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Luminosity Dependences
CDC BG did not change!
Feb, 2004
Inner most
Middle
Outer
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Occupancy
Luminosity 1034cm-2sec-1
No. of channelNTotal
Readout time(μsec)
Q>0 Q>50NHit
Belle 1.5 8464 6 - 300
Babar 0.8 7104 2 ~700 ~350
Occ. = NHit/NTotal
(%)
Occ./Time(%/μsec)
Max. drift time(μsec)
Occ./Time x Max. Drift time (%)
Normalized by Lum.(%)
Belle 3.5 0.58 0.4 0.23 0.15
Babar 4.9 2.45 ~0.6 1.47 1.84
x20 Bkgd in Belle CDC ~ x3 Bkgd in Babar DCH
Random trigger
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at HL6 in KEK