e.c. aschenauer rhic - ags user meeting, june 2011 · 2012. 2. 22. · e.c. aschenauer rhic - ags...
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E.C. Aschenauer RHIC - AGS User Meeting, June 2011 1
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The Pillars of the eRHIC Physics program
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 2
Hadronisati
spin
Physic
3D
Imiging
physics
of
strong
color
fields
Electro
We
Wide physics program with high requirements on detector and machine performance
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Golden Measurements: Physics of strong color fields
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 3
ScienceDeliverable
BasicMeasurement
Detector Requirements
MachineRequirements
integrated gluon distributions
nuclear wave fct.saturation, Qs
inclusive DISF2,L
very good electron ID very good momentum and
angular resolution for e’
need to reach x~10-4
large x,Q2 coverage medium lumi highest √s
kT-dependent gluons;gluon correlations
non-linear QCD evolution/universality
semi-inclusive DIS
di-hadroncorrelations
very similar to inclusive DIS excellent particle ID wide coverage range in η
need to reach x~10-4
large x,Q2 coverage medium lumi highest √s
transport coefficients in cold nuclear matter
parton energy loss;shower evolution
energy loss mechanism
semi-inclusive DIS;
light and heavy hadrons (c,b), Jets
very good electron ID very good momentum and
angular resolution for e’ excellent particle ID excellent vertex
resolution
large x,Q2 coveragemulti-dim binning
medium - high lumi low - high √s
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ScienceDeliverable
BasicMeasurement
Detector Requirements
MachineRequirements
spin structure at small xcontribution of Δg, ΔΣ
to spin sum ruleinclusive DIS
very good electron ID very good momentum and
angular resolution for e’
need to reach x=10-4
large x,Q2 coverageabout 10fb-1
medium lumi high √s
full flavor separationin large x,Q2 range
strangeness, s(x)-s(x)polarized sea
semi-inclusive DIS
very similar to inclusive DISexcellent particle ID
separate π, K, p over a wide range in η
need to reach x=10-4
large x,Q2 coveragepolarized 3He beam
medium lumi high √s
electroweak probesof proton structure
flavor separationelectroweak parameters
very high Q2
hadronic final state
very good coverage forhadronic final state kinematic from q-jet
20x250 to 30x325positron beam
polarized 3He beam high lumi highest √s
Golden Measurements: Spin Physics
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 4
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ScienceDeliverable
BasicMeasurement
Detector Requirements
MachineRequirements
Sivers + unpol PDFvalence, sea quarks & gluons• quantum interference • multiparton correlations• spin-orbit correlations & role of OAM
• matching low-high pT
semi-inclusiveDIS
transverse nucl. pol.di- hadron/(di- jets)heavy- flavor production
very good electron ID very good momentum and
angular resolution for e’ excellent particle ID
separate π, K, p over a wide range in η
full Φ-coverage around γ* excellent vertex res.
large x,Q2 coverage5D binning high lumi low - high √s
chiral odd fcts.valence, sea quarks & gluons• transversity & IFF• Collins-FF• Boer-Mulders fct.
semi-inclusive DIS as above as above
quark and gluon imaging via GPDs
in bT-spaceaccess to Lq and Lg
exclusive DIS DVCS, J/Ψ, ρ, Φ
very good electron ID very good momentum and
angular resolution for e’ exclusivity and high resolution in t Roman pots
large x,Q2,t coverage4D binning
polarized beams high lumi low - high √s
Golden Measurements: 3D- Imaging in bT / kT
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 5
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Deep Inelastic Scattering
6
Q2 = −q2 = −(kµ − ′kµ )2
Q2 = 2Ee ′Ee (1 − cosΘe ' )
y =pqpk
= 1 −′Ee
Ee
cos2 ′θe
2
x =Q2
2 pq=
Q2
sy
Measure of resolution power
Measure of inelasticity
Measure of momentum fraction of struck quark
E. C. Aschenauer
Kinematics:
RHIC - AGS User Meeting, June 201 1
Challenge:need to cover wide range in beam energies lepton: 5 - 30 GeVhadron (p/Au) 100 – 325 GeV / 25 – 130 GeV
Resolution in x, Q2 dominated how well the scattered lepton is measured
low momentum: Multiple scattering low materialhigh momentum: position resolution from tracking detector all momenta: Brems-strahlung low material
e- p/A
0o 180o
Hadron : z =Eh
ν;
pt : with respect to γ*
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DIS Kinematics
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 7
y=0.05
y=0.85
Strong x-Q2 correlation high x high Q2
low x low Q2low y limited bytheta resolution for e’ use hadron method
high y limited byradiative correctionscan be suppressed byby requiring hadronicactivity HERA
y>0.005
Potential limitations in kinematic coverage:
y =
pq
pk= 1 −
′Ee
Ee
cos2′θe
2
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Deep Inelastic Scattering
8
Q2 = −q2 = −(kµ − ′kµ )2
Q2 = 2Ee ′Ee (1 − cosΘe ' )
y =pqpk
= 1 −′Ee
Ee
cos2 ′θe
2
xB =Q2
2 pq=
Q2
sy
t = ( p − p')2 ,ξ =xB
2 − xB
Measure of resolution power
Measure of inelasticity
Measure of momentum fraction of struck quark
E. C. Aschenauer
Kinematics:
RHIC - AGS User Meeting, June 201 1
Exclusive events:e+p/A e’+p’/A’+γ / J/ψ / ρ / φdetect all event products in the detector
Special sub-event category rapidity gap eventse+p/A e’+γ / J/ψ / ρ / φ / jetdon’t detect p’ HERA: 20% non-exclusive event contamination
missing mass technique as for fixed target does not work resolution
e’
t
(Q2)e
γL*x+ξ x-ξ
H, H, E, E (x,ξ,t)~~
γ
p p’
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E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 9
Kinematics of scat. electroncuts: Q2>1GeV2 && 0.01<y<0.9
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E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 1 0
Kinematics of scat. electron
cuts: Q2>0.1GeV2 && 0.01<y<0.9
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Required Lepton- Hadron Separation
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 1 1
Need very good e-PID for high Q2 events
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Kinematics of semi- inclusive hadrons
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 1 2
cuts: Q2>1GeV2 && 0.01<y<0.9 && 0.1<z<0.9PIONS:
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Kinematics of semi- inclusive hadrons
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 1 3
cuts: Q2>1GeV2 && 0.01<y<0.9 && 0.1<z<0.9KAONS:
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Kinematics of exclusive hadrons
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 1 4
cuts: Q2>1.0GeV2 && 0.01<y<0.9ρπ++π-:
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Important for Detector Design DIS:
with increasing center-of-mass energy lepton goes more and more in original beam direction
high Q2 events go into central detector low Q2 events have small scattering angle and close to original
beam energyneed low forward electron tagger for low Q2 eventslow-mass high resolution trackers over wide angular acceptance
Semi-Inclusive DIS hadrons go from very forward to central to even backward with
lepton beam energy increasinggood particle-ID over the entire detector (1<p<30-60GeV)
Exclusive Reactions: decay products from excl. ρ / φ / J/ψ go from very forward to
central to even backward with lepton beam energy increasing
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 1 5
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Additional Remarks Charm detection
structure functions detecting lepton form decay in addition to scattered via displaced vertex should be enough
charm in fragmentationneed to reconstruct D0 meson completely to measure its zgood PID
Very high luminosity 1034 cm-1s-1
will be systematic limited basically in every measurement needs a lot of care to account for this in the design
detector: alignment, ……polarization measurements: bunch by bunch; luminosity measurementrelative luminosity measurement
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How to detect coherent/in- coherent events in ep/A ?
e+p/A e’+p’/A’ + γ / J/ψ / ρ / φ / jet Challenges to detect p’/A’
Beam angular divergence limits smallest outgoing Θmin for p/A that can be measured
Can measure the nucleus if it is separated from the beam in Si (Roman Pot) “beamline” detectors
pTmin ~ pzA θmin
For beam energies = 100 GeV/n and θmin = 0.1 mrad
Large momentum kicks, much larger than binding energy (~8 MeV)
For large A, coherently diffractive nucleus cannot be separated from beamlinewithout breaking up break up neutron detection veto incoherent events
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 1 7pt=√t
incoherent dominates at a t at 1/e of coherent cross section pt << ptmin
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DVCS: ep e’p’γ
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 1 8
cuts: Q2>1.0GeV2 && 0.01<y<0.9 && Eγ>1GeV
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Diffractive Physics: p’ kinematics
5x250
5x100
5x50
E. C. Aschenauer 1 9RHIC - AGS User Meeting, June 201 1
t=(p4-p2)2 = 2[(mpin.mpout)-(EinEout - pzinpzout)]
“ Roman Pots” acceptance studies see later
?
Diffraction:
p’
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Kinematics of Breakup Neutrons
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 20
Results from GEMINI++ for 50 GeV Au
by Thomas Ullrich+/-5mrad acceptance seems sufficient
Results:With an aperture of ±3 mrad we are in relative good shape• enough “detection” power for t > 0.025 GeV2
• below t ~ 0.02 GeV2 we have to look into photon detection‣ Is it needed?Question:• For some physics rejection power for incoherent is needed ~104
How efficient can the ZDCs be made?
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How to detect coherent/in- coherent events in ep/A ?
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 21
Rely on rapidity gap method simulations look good
clear difference between DIS anddiffractive events
high eff. high puritypossible with gap alone
~1% contamination~80% efficiency
depends critical on detector hermeticity
• However, reduce the acceptance by 1 or 2 units of rapidity and these values drop significantly
improve further by veto on breakup of nuclei (DIS)
Very critical mandatory to detect nuclear
fragments from breakup n: Zero-Degree calorimeter p, A frag: Forward Spectrometer
Rapidity
PurityEfficiency
Rapidity
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Emerging Detector Concept
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 22
high acceptance -5 < η < 5 central detectorgood PID (π,K,p and lepton) and vertex resolution (< 5µm)tracking and calorimeter coverage the same good momentum resolution, lepton PIDlow material density minimal multiple scattering and brems-strahlungvery forward electron and proton/neutron detection maybe dipole spectrometers
Forward / BackwardSpectrometers:
detector currently modeled in• FLUKA• GEANT-4• and in a fast simulation
• together with ZEUS and STAR important for Detector R&D and
physics capabilities
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0.44
843
m
D5
90.08703 m60.0559 m
10
0.25
82 m
Integration into Machine: IR- Design
E. C. Aschenauer 23
39.98 m
0.31
5726
m3020
θ=0.0036745 mrad
eRHIC - Geometry high-lumi IR with β*=5 cm, l*=4.5 mand 10 mrad crossing angle this is required for 1034 cm-2 s-1
Outgoing Proton direction already far advanced
30 GeV e-
RHIC - AGS User Meeting, June 201 1
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Integration into Machine: IR- Design
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 24
space for low-Θ e-tagger
Outgoing electron direction currently under detailed design detect low Q2 scattered leptons want to use the vertical bend to separate very low-Θ e’ from beam-electrons can make bend faster for outgoing beam faster separation for 0.1o<Θ<1o will add calorimetry after the main detector
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Latest beam optics for outgoing nominal protons
Beam transport using Hector:
E. C. Aschenauer 25RHIC - AGS User Meeting, June 201 1
outgoing protons with 20% momentum loss
studies by JH
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proton distribution in y vs x at s=20 m
25x250 5x50
E. C. Aschenauer 26RHIC - AGS User Meeting, June 201 1
without quadrupole aperture limit
25x250 5x50with quadrupole aperture limit
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Accepted in“Roman Pot”(example) at s=20m
25x250 5x50
E. C. Aschenauer 27RHIC - AGS User Meeting, June 201 1
25x250 5x50
GeneratedQuad aperture limitedRP (at 20m) accepted
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Cross section:
Pythia σep: 0.030 – 0.060 mbLuminosity: 1034 cm-1 s-1 = 107 mb-1 s-1
Some thought about rates
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 28
low multiplicity4-6 √s = 40-65 GeVNch (ep) ~ Nch (eA) < Nch(pA) no occupancy problem
σ
ep< σ
γ *p< σ
γp
Interaction rate:300 -600 kHz
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What can PHENIX and STAR do?
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 29
MPC 3.1 < | η | < 3.92.5o < Θ < 5.2o
Muon Arms 1.2 < | η | < 2.4South: 12o < Θ < 37o
North: 10o < Θ < 37o
Central Arms | η | < 0.3560o < Θ < 110o
e-
scattered lepton can only be detected at mid-rapidity | η | < 0.35 very high Q2
no acceptance for TMD/GPD physics
small acceptance for semi-inclusive physics
p/A
PHENIX:in its current incarnation it is not suited for eRHIC physics
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The New PheniX Spectrometer
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 30
Design completely driven by AA, dA and pp physics programe-p/A
What can be done: inclusive physics reasonable coverage for scattered lepton
but need to close the gap between 1<η<2 high mass tracking Q2 – x resolution
semi-inclusive physics no PID in central detector and hadron beam direction will loose significant part of the physics program
exclusive physics program limited acceptance for coherent physics
but need to add roman pots design is not suited for rapidity gap events
Design not compatible with most of the eRHIC physics program
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MRPC ToF Barrel
BBC
FPD
FMS
EMC Barrel EMC End Cap
DAQ1000 COMPLETE
Ongoing R&D
TPC
computing
STAR Experiment as of 201 4
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1 31
HFT FGT
MTD
Roman Pots Phase 2
Trigger and DAQ Upgrades
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eRHIC phase 1 : kinematic range
32
5 GeV e + 50 GeV/nucleon
TPC+BEMC+TOF
Missing today
Missing today
Missing today
DIS
re
gion
SIDIS
re
gion
5 GeV e + 325 GeV/nucleon
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1
Inclusive physics “Forward” (-2.5 <~ η < -1) electron acceptance essential to span deep-inelastic
(DIS) regime semi-inclusive physics
need to investigate how well PID coverage is matched to SIDIS kinematics Both backward and forward hadron coverage valuable for SIDIS
exclusive physics program Need forward proton and expanded photon detection (DVCS)
Roman pots (also valuable for spectator proton tagging in e+3He) EM calorimetry for -4 < η < -1 rapidity gap event acceptance needs to be checked
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Evolving from STAR into eSTAR
EIC Generic Detector R&D Panel:GCT: LOI toward multi-institution R&D effortHCal: R&D proposal
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FMS FHC
~ 6 GEM disksTracking: 2.5 < η< 4
RICHBaryon/meson separation
Preshower1/2” Pb radiatorShower “max”
proton nucleus/electron
W powder HCal
ToFTPC i.s.
TPC i.s.
GCT
ECal
Lepton Beam Direction:ToF: π, K identification, t0, electronECal: electrons and photonsGCT:a compact tracker with enhanced electron capabilityCombine high-threshold (gas) Cherenkov with TPC(-like) tracking
Hadron Beam Direction:optimized for p+A and transverse spin physics
Charged-particle tracking e/h and γ/π0 discrimination Baryon/meson separation
What is the momentum resolution at forward rapidity (B=0.5T too low?)Design closer to eRHIC physics program needsBut: need to simulate golden measurements to understand the details
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Challenges for both eSTAR and ePHENIX IR design needs to be adopted L* impact on lumi how can the 10 mrad crossing angle be integrated
what is the minimum physics program ePHENIX and eSTAR need to be able to cover, to be an interesting option for phase I of eRHIC
Dedicated detector is essential to do the full eRHIC physics program essential to form a eRHIC community with new groups
IR and detector design need to go hand in hand what is the cost for a new detector? How can it be staged?
reasonable technology choices price need to start quantitative detector simulation
simulate golden experiments in detail address question: what can a dedicated ep/eA detector do in pp, AA,
pA collisions
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and Summary
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Most Compelling Physics Questions
37
spin physics
what is the polarization of gluons atsmall x where they are most abundant
what is the flavor decomposition ofthe polarized sea depending on x
determine quark and gluon contributionsto the proton spin at last
what is the spatial distribution ofquarks and gluons in nucleons/nuclei
imaging
possible window toorbital angular momentum
understand deep aspects of gaugetheories revealed by kT dep. distr’n
physics of strong color fields
how do hard probes in eA interact with the medium
quantitatively probe the universality ofstrong color fields in AA, pA, and eA
understand in detail the transition to the non-linear regime of strong gluon fields and the physics of saturation
E. C. Aschenauer RHIC - AGS User Meeting, June 201 1
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STAR → eSTAR
Inclusive scattering over the entire deep-inelastic region Key measurements
FL in e+p and e+A: direct measure of gluon densities in nucleons and nucleig1 in e+p and e+3He: nucleon spin structureF2
A/F2d: parton distributions in nuclei (including gluons via Q2 evolution)
Need electron detection, ID, and triggering over -2.5 <~ η < -1Combined mini-TPC/threshold gas Cherekov detector
Semi-inclusive deep-inelastic scattering over a broad (x,Q2) domain Key measurements
Flavor-separated helicity distributions, including strangenessCollins, Sivers, Boer-Mulders, and other transverse spin distributionsFlavor-separated parton distributions in nuclei, including strangenessParton energy loss in cold nuclear matter
Need hadron detection and identification beyond the TPC/EEMCExtend TOF to cover -2 < η < -1GEM disks (from forward instrumentation upgrade) plus hadronic calorimetry in the region 2 < η < 3
Deeply-virtual Compton scattering Key measurement
GPDs Need forward proton and expanded photon detection
Roman pots (also valuable for spectator proton tagging in e+3He)EM calorimetry for -4 < η < -1
Optimizing STAR for e+p and e+A collisions from 5+50 to 5+325 GeV
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