the dirc projects of the panda experiment at fair
DESCRIPTION
The DIRC projects of the PANDA experiment at FAIR. Klaus F öhl on behalf of RICH2007 Trieste 18 October 2007. rough-egdes version (isn’t it great to have had a fire-alarm today). Cherenkov Group. Gliederung. quick FAIR & PANDA overview DIRC detectors Barrel Disc Focussing - PowerPoint PPT PresentationTRANSCRIPT
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The DIRC projects of thePANDA experiment at FAIR
Klaus Föhl on behalf of
RICH2007 Trieste
18 October 2007
Cherenkov Group
rough-egdes version
(isn’t it
great to have
had a fire-alarm
today)
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Gliederung
• quick FAIR & PANDA overview
• DIRC detectors– Barrel– Disc Focussing– Disc Time-of-Propagation
• Challenges
• Summary
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• Gesellschaft für Schwerionenforschung in Darmstadt, Germany
• German National Lab for Heavy Ion Research
• Highlights:– Heavy ion physics
(i.e.tsuperheavies)– Nuclear physics– Atomic and plasma physics– Cancer research
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Rare-Isotope BeamsN-N Collisions at High EnergyIon Beam Induced PlasmasAntiprotons
Nuclei Far From StabilityCompressed Nuclear MatterHigh Energy Density in BulkHadron Spectroscopy
HESR
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A View of PANDAPbar AND A AntiProton ANihilations at DArmstadt
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PANDA Detector
beam
Top View
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PANDA Detector
beam
Top View
RICH
Barrel-DIRC
Endcap Disc DIRC
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PANDA Detector
beam
Top View
RICH
Endcap Disc DIRC
4 instead of 2 mirrors
HERMES-Style RICH
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PANDA Detector
beam
Top View
Barrel-DIRC
2-dimensionalimaging type
following the BaBar design
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Barrel a la Babar
imaging by expansion volume, pinhole “focussing”
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Barrel DIRC
2-dimensionalimaging type
ongoing work for a more compact readout
plate instead of bar?
C. Schwarz et al.
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PANDA Detector
beam
Top View
Endcap Disc DIRCTime-of-Propagation Focussing Lightguide
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Time-of-Propagation designM. Düren, M. Ehrenfried, S. Lu, R. Schmidt, P. Schönmeier
single photonresolution~30-50psneeded
relevant for ToP
idea:reflect somephotonsseveralpath lengths
mirr
ors
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Time-of-Propagation designM. Düren, M. Ehrenfried, S. Lu, R. Schmidt, P. Schönmeier
single photonresolution~30-50psneeded
[deg]
t [p
s]
relevant for ToP
idea:reflect somephotonsseveralpath lengths
mirr
ors
reflective hole
backup slide
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backup slide
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Analysis without external timing
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Time-of-Propagationparticle angle ???time resolution[eV] = QE*wavelengthbanddisc with(out) (black) hole
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Focussing Lightguide
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differentdispersion
SiO2 amorphous fused silica
focussingelement
Focussing & Chromatic Correction
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two boundary surfaces makechromatic dispersion correctionangle-independent in first order
varying curvature requiredimperfectfocussing ascurvature iscompromise(but good enough)
internalreflection angleindependent of
light never leaves dense optical medium good for phase space
Fo
cal
Pla
ne
(dis
pers
ive
dire
ctio
n)
1-di
men
sion
al r
eado
ut
Focussing & Chromatic Correction
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Focussing Lightguide
simulation example with 2 fit analysisshort lightguide 125mm, focal plane 48mm
p2-p1= 4x(1/2 + 2/2)
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z_from_target[mm]= 2000disc_radius[mm]= 1100disc_thickness[mm]= 10nzero[1/mm]= 14 (0.4eV)LiF corrector plate
radiation_length[mm]= 126B [Tesla] = 2momentum[GeV/c]= 5beta= 0.98
n_lightguides= 192lightguidewidth= 25lightguidelength= 65 (from apex)lightguide focal plane = [32,80]lightguide pixel size[mm]= 1
simulation example with 2 fit analysisshort lightguide 125mm, focal plane 48mm
p2-p1= 4x(1/2 + 2/2)
backup slide
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Challenges and Compromises
• Radiator bulk and surface properties
• Radiator thickness
• Straggling
• Radiation hardness
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Light Generation
• radiator thickness– number of photons
• transparency– wide wavelength range (eV) – high statistics
• material dispersion– either narrow w. band– or correction required
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Light Propagation10 mrad
individual angle variations: = Pixel / sqrt(N)1 mrad
about 50-100 reflections
length 400mm, =400nm d=1mm (approximately)
d
Fresnel Zone
rough surface causing path length differences and phase shifts
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Material Test
Testing transmission and total internal reflectionof a fused silica sample (G. Schepers and C. Schwarz, GSI)
AFM image
Ferrara,
surface from
GW-Glasgow
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Particle Path Stragglingx
( ) x standard deviation of x
angle information of upstream trackingis 0.57 off( ) x
Cherenkov ring
Cherenkov ring image is blurredby 0.38 ( ) x
reduce radiator thickness, reduce X0
2 sigma envelopes
K
fused silica, thickness??
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Material choice for dispersion corr.
Irradiation test at KVISchott LLF1 HTglass sample
(B. Seitz, M. Hoek, Glasgow)
LiF sample photo
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Light Detection
• detector geometry• magnetic field (~1T)• photon rate (MHz/pixel)• light cumulative dose • radiation dose
photon detection is a problem still to be solved
looking into MCP, silicon PMTs, HPDs Erlangen
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Advantages
• wide dynamic range (0.6GeV/c-~6GeV/c)
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Momentum Thresholds
fused silica n=1.47
aerogel n=1.05
K
K p
p
total internal reflection limit
n=1.47
K p
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Summary
• Several designs
• There are challenges ahead
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Thank you for listening
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Backup Slides
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Panda Participating Institutes more than 300 physicists (48 institutes) from 15 countries
U BaselIHEP BeijingU BochumU BonnU & INFN BresciaU & INFN CataniaU CracowGSI DarmstadtTU DresdenJINR Dubna (LIT,LPP,VBLHE)U EdinburghU ErlangenNWU EvanstonU & INFN FerraraU FrankfurtLNF-INFN Frascati
U & INFN GenovaU GlasgowU GießenKVI GroningenU Helsinki IKP Jülich I + IIU KatowiceIMP LanzhouU MainzU & Politecnico & INFN MilanoU MinskTU MünchenU MünsterBINP NovosibirskLAL Orsay
U PaviaIHEP ProtvinoPNPI GatchinaU of SilesiaU StockholmKTH StockholmU & INFN TorinoPolitechnico di TorinoU Oriente, TorinoU & INFN TriesteU TübingenU & TSL UppsalaU ValenciaIMEP ViennaSINS WarsawU Warsaw
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Particle ID & Kinematicspp KK T=5,10,15 GeV/c
pp DD D K T=6.6 GeV/c
pp i.e. charmonium production
need to measure two quantities:
dE/dxenergymomentumvelocitymomentum (tracking in magnetic field)velocity (Cherenkov Radiation)momentum (tracking in magnetic field)velocity (Cherenkov Radiation)
if mass known, particle identified
K K K
K evenor K
--
--
+ +
+ +
+ +
+ +
+ +
-
- +
+
distinguish and K (K and p) ...
D
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Time-of-Propagation
• single photo timing crucial
• performance increase comes with more tracks in the time-angle-plane
reflective hole absorbing hole
16 deg
these calculations: =400nm-800nm Quantum Efficiency 30% n0=17.19/mm per band: n(group)=0.0213 (inspired by [480nm-600nm] n=0.00615
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Proximity Focussing design
design variationwith mirror andthe expansionvolume upstreamradiator placed closer to EMC
C6F14CsI + GEM
suggestion Lars Schmitt: combine tracking and PID
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fused silicaradiator
Cherenkov Detectors in PANDA
• HERMES-style RICH
• BaBar-style DIRC
• Disc DIRC4 instead of 2 mirrors
front viewside view
* measurement
* measurement
2-dimensionalimaging type
one
-dim
ens
iona
lim
agin
g D
IRC
typ
e
*
*
*
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Focussing & Chromatic Correction
focussingelement
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Focussing & Chromatic Correction
higherdispersionglass
SiO2 amorphous fused silica
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Focussing & Chromatic Correction
higherdispersionglass
two boundarysurfaces to turncorrection mostlyangle-independent
different curvatures required
curvature iscompromise
internalreflection angleindependent of
light never leaves dense optical medium good for phase space
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Focussing disc DIRCfocal plane of focussing lightguide withrectangular photon detector pixels
foca
l pla
ne c
oord
. [m
m]
lightguide number
lightguide “200mm”
LiF
SiO2
SiO2
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Expansion Volume advantageousperipheral tracks createlocal high photon density
the further outward,the more radial the light paths
increasingparticle angle
rim proximity
performance does drop towards disc perimeter
outer limit ofacceptancecoverage
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Focussing Lightguides
• short focal plane 50mm• ~1mm pixels needed• optical errors exist• thicker plate a problem
• focal plane 100mm• pixel width 2-3mm• benign optics• thicker plate ok
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Focussing disc DIRC
focussing is better than 1mmover the entire linechosen as focal plane
light stays completelywithin mediumall total reflectioncompact designall solid materialflat focal plane
radiation-hard “glass”RMS surface roughnessat most several Ångström
LiF for dispersion correction
has smaller |dn/d| than SiO2
foca
l pla
ne c
oord
. [m
m]
lightguide number
lightguide “200mm”
rectangularpixel shape
LiF
SiO2
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Detector Performance
z_from_target[mm]= 2000disc_radius[mm]= 1100disc_thickness[mm]= 10nzero[1/mm]= 14 (0.4eV)LiF corrector plate
radiation_length[mm]= 126B [Tesla] = 2momentum[GeV/c]= 5beta= 0.98
n_lightguides= 192lightguidewidth= 25lightguidelength= 65 (from apex)lightguide focal plane = [32,80]lightguide pixel size= 1
simulation example with 2 fit analysisshort lightguide 125mm, focal plane 48mm
p2-p1= 4x(1/2 + 2/2)
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In brief
• fused silica radiator disc, around the rim:– LiF plates for dispersion correction– internally reflecting focussing lightguides
• one-dimensional imaging DIRC• radiator with very good RMS roughness required• perfect edges (as in the BaBar DIRC) not needed• number-of-pixels ~ p4
• stringent requirements for photon detectors
• two alternative designs, one DIRC, one RICH• two examples of material testsworking on Cerenkov detectors for PANDA:Edinburgh, GSI, Erlangen, Gießen, Dubna, Jülich, Vienna, Cracow, Glasgow
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Time-of-Propagation designM. Düren, M. Ehrenfried, S. Lu, R. Schmidt, P. Schönmeier
single photonresolution~30-50psneeded
[deg]
t [p
s]
relevant for ToP
idea:reflect somephotonsseveralpath lengths
mirr
ors
reflective hole
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Focussing Lightguides
no LiF plate
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Time-of-Propagation
TOP =30ps N0=344 n0=7.64/mm
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Time-of-Propagation
TOP =70ps N0=344 n0=17.19/mm[ref: Markus Ehrenfried, Saclay talk]
hexagon with rectangular hole
circle black rectangle
circle mirror rectangle
hexagon mirror rectangle
hexagon black rectangle
circular with rectangular hole
comparison:hexagon 960mm width or round disc 1100mm radius
t=30ps
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Proximity Focussing
C6F14+
CsI+GEM
radiator 15mmexpansion 135mm[no] mirror
beware: no reality factors included yet
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Focussing disc DIRC design for PANDA
Klaus Föhl
18 July 2007
LHCb RICH Group meeting at Edinburgh
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Core programme of PANDA (1)
• Hadron spectroscopy– Charmonium spectroscopy– Gluonic excitations (hybrids, glueballs)
• Charmed hadrons in nuclear matter
• Double -Hypernuclei
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Core programme of PANDA (2)
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PANDA Side View
Pbar AND A
AntiProton ANihilations at DArmstadt
• High Rates– 107 interaction/s
• Vertexing– KS
0, Y, D, …
• Charged particle ID– e±, μ±, π±, K, p,…
• Magnetic tracking
• EM. Calorimetry– γ,π0,η
• Forward capabilities– leading particles
• Sophisticated Trigger(s)
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PANDA Detector
beam
Top View
Barrel-DIRC2-dimensionalimaging type