the lhec project
DESCRIPTION
The LHeC project. INT workshop – Science case for an EIC Seattle, WA, November 18, 2010. Olaf Behnke (DESY). ..Logo from the ongoing logo contest. 1. Need for LHeC. 27.5 GeV x 920 GeV ep HERA with integrated L~0.5 fb -1 was a high precision machine for QCD - PowerPoint PPT PresentationTRANSCRIPT
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The LHeC project
Olaf Behnke (DESY)
INT workshop – Science case for an EIC
Seattle, WA, November 18, 2010
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..Logo from the ongoinglogo contest..
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Need for LHeC27.5 GeV x 920 GeV ep HERA
with integrated L~0.5 fb-1 was a high precision machine for QCD modest precision machine for electroweak physics
Where could we go with a 20-150 GeV x 7 TeV e±p, also eA collider with integrated L~1-100 fb-1 ?
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Lepton proton scattering experiments
LHeC = highest
energy andhigh lumi
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Physics and Range
High mass 1-2 TeVrq few times 10-20 m
High precisionpartons in plateauof the LHC
Nuclear
Structure& dynamics
High Density Matter
Large x
LHeC grand picture
Talk Content:Accelerator1. Inclusive DIS & PDFs 2. Jets, c,b,t3. Low x, saturation4. EW and BSM
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LHeC Accelerator options
4
111232
)(11
])[/100(][35.0
507.1
10102.8
,)5.0(8.1,8.3,107.1
4
GeVEMWPmAI
mA
ImNscmL
M
EmmN
I
e
NL
ee
e
pypx
p
p
pypxpp
pypx
e
pn
p
Ring-Ring
Power Limit of 100 MW wall plug“ultimate” LHC proton beam60 GeV e± beam
L = 2 1033 cm-2s-1 O(100) fb-1
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LHeC Accelerator options
L 1
4N p
p1
*
Iee
N p 1.71011, p 3.8m,* 0.2m, 7000/0.94
L 81031cm 2s 1N p10
11
1.70.2
* /mIe /mA
1
Ie mAP /MW
E e /GeV
LINAC Ring 60 GeV “Circus Maximus” withEnergy recovery: P=P0/(1-η)β*=0.1mL = 1033 cm-2s-1 O(100) fb-1
140 GeV LINAC few times 1032
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Max Klein - Scenarios and Measurements
1. Inclusive NC & CC DIS: simulated Default Scenarioshttp://hep.ph.liv.ac.uk/~mklein/simdis09/lhecsim.Dmp.CC, readfirst
Not simulated
Max Klein, LHeC
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8Max Klein - Scenarios and Measurements
Kinematics – high Q2
Need excellent forward hadron calorimetry & calibration
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The Detector ‘that should do it’: - Low Lumi (Low Q2) Setup
- Solenoid surrounding the HAC modules-Outer detectors (HAC tailcatcher/muon detectors not shown) to be discussed: very forward detector setup (proton taggers)
To be optimised
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Max Klein - Scenarios and Measurements
Trivial, but important: largest Elep allows highest Q2 scales
Pseudodata: Neutral Current Event Pseudodata: Neutral Current Event RatesRates
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Photon and Z exchanges are 1:1
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2 charges and2 polarisationsvery desirable
for electroweakprecision physics
and anew spectroscopy
should that appear.
Z effects depend on lepton charge and
polarisation.
x=0.2100 GeV7000 GeV
F2
yZ ZZ
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Charge Asymmetry xF3Z
60x7000 GeV2
P=010fb-1
Get handle on valence quarks down to x~0.001
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Parity violating polarisation asymmetries(for 60 GeV and 140 GeV lepton beams)
SLAC 1978 13
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14Max Klein - Scenarios and Measurements
Rates
LHeC: expect ~ two orders of magnitudemore events + better coverage forx>0.5
Max Klein - Scenarios and Measurements
Pseudodata: Charged Current Event Rates
q
q’
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Charged Currents
Valence quarksup to x=0.8
Unfold U,D and anti U,D
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Strange =? Anti-strange quark density
oh
oh
syst
q
c
fb
csW
10
1
1.0
01.0
1.0
1 1
Some dimuon and K data,but never properly measured Use e- p data for
sbar 16
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How well do we know PDFs today? gg parton luminosities
Agree in region relevant for Higgs at LHC, but diverge towards smaller/largest shat
G. Watt
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Proton PDF fit at LHeC Q2 = 100 GeV2
Scenario D
» only PDF parameters free(LHeC NC and CC e±p included)
Large improvements, model and parameterisation uncertainties to be studied
Claire Gwenlan
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Sea quark uncertainties and usual constraint ubar=dbar for x0
release constraint
Voica Radescu
With LHeC can get ridof such
assumptions
with constraint
HERA only
Adding LHeC
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Plenary ECFA, LHeC, Max Klein, CERN 30.11.2007
Further PDF improvements at LHeC with ep + eD
crucial constraint on evolution (S-NS), improved s
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Simulation of s measurement at LHeC
1/
fine structure
weak
strong
T.Kluge/M.Klein Divonne 09
Improve at LHeC to ~ permille
precision level 21
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2. High pt Jets
sensitive to g(x), photon structure and s
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Will reduce significantly theory (higher order) uncertainty for s
extraction from jet data
O(s3)
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2. Charm & beauty
sensitive to g(x) 26
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for PDF fits27
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x=0.00003
x=0.00007
x=0.0003
x=0.0007
x=0.003
x=0.007
x=0.0000
x=0.03
x=0.1
x=0.3
1 fb 1
c 0.1bgdq 0.01
syst 0.1
h 1o
h 10o
Max Klein
Charm in DIS: test intrinsic charm in p
Expected to show up at xb >0.1
Requires c-tagging in very foward direction (~1 deg.)
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O.B.
Beauty in DIS: determine b-density in proton x=0.000001
HERA
coverage
Q2>>mb2
O.Behnke
x=0.2
In MSSM Higgs production is b dominated
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Use for LHC
predictions
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3. Entering the mysterious world of low
x physics
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Low-x Physics and Non-linear EvolutionLow-x Physics and Non-linear Evolution
• Somewhere & somehow, the low x growth of cross sectionsmust be tamed to satisfy unitarity … non-linear effects • Usually characterised in terms of an x dependent “saturation scale”, Q2
s(x), to be determined experimentally
Note: This and following slides
Courtesy Paul Newmanor Anna Statso
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Going beyond HERA with Inclusive LHeC DataGoing beyond HERA with Inclusive LHeC Data
[Armesto]
Enhance target `blackness’ by:
1) Probing lower x at fixed Q2 in ep
2) Increasing target matter in eA… target density ~ A1/3 ~ 6 for Pb
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Saturation region reach: LHeC vs EIC
EIC
LHeC
7 TeV x 100 GeV
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Non DGLAP
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Including LHeC data in NNPDF DGLAP fit approach …
… sizeable improvement in error on low x gluon when both LHeC F2 & FL data are included.
… but would DGLAP fits fail if non-linear effects present?
Fitting for the Gluon with LHeC FFitting for the Gluon with LHeC F22 and F and FLL
(Gufanti, Rojo …) (Gufanti, Rojo …)
HERA + LHeC F2 HERA + LHeC F2, FL
(Q2 = 2 GeV2)
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Conclusion: clearly establishing non-linear effects needs aminimum of 2 observables … next try F2
c in place of FL …
Can Parton Saturation be Established @ Can Parton Saturation be Established @ LHeC? LHeC?
Simulated LHeC F2 and FL data based on a dipole model containing low x saturation (FS04-sat)…
… NNPDF (also HERA framework) DGLAP QCD fits cannot accommodate saturation effects if F2 and FL both fitted
[Rojo]
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eA: Impact of LHeC data on nuclear parton densities
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4040
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Q2
VM:,,,J/
Elastic Vector meson production in ep scattering
p p
e
e
t
Wp
➔ Obtain 3d-picture of proton
qqbar-dipol
gluons
Large t probe densest part of proton
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Dedicated Low x Linac-Ring Scenario Dedicated Low x Linac-Ring Scenario
Dream scenario!!!
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J/ photoproductiondouble differentiallyin W and t, Ee=150 GeV1o acceptance
Probing x ~ 3.10-6
at eff Q2 ~ 2.5 GeV2
c.f. GB-W model xs ~ 7.10-6 at Q2 ~ 2.5 GeV2
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4343
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Inclusive DiffractionInclusive Diffraction
Additional variables …
xIP = fractional momentum loss of proton (momentum fraction IP/p)
b = x / xIP (momentum fraction q / IP)
Further sensitivity to saturation phenomena Diffractive parton densities in much increased range Sensitivity to rapidity gap survival issues Can relate ep diffraction to eA shadowing … Link between ep and eA for interpreting inclusive data
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Worked well: The methods have very different systs!What is possible at LHeC?…
Signatures and Selection Methods at HERA
`Large Rapidity Gap’ adjacent to outgoing (untagged) proton
- Allows t measurement- Limited by stats and p-tagging systs Limited by p-diss
systs
Scattered proton in ZEUSLPS or H1 FPS
ηmax
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New region of Diffractive MassesNew region of Diffractive MassesNo alternative to proton spectrometer to select high Mx
• `Proper’ QCD (e.g. large ET) with jets and charm accessible• New diffractive channels … beauty, W / Z / H(?) bosons• Unfold quantum numbers / precisely measure new 1-- states
(xIP<0.05)
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4. SM electroweak and new physics at the high energy
frontier
HERA
LHeCLHeC
Light quark couplings to ZSM Higgs productionLeptoquarks + many other possibilities, e.g. excited leptons, anomalous single top production, etc. 47
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Fermion couplings to Z boson
Claire
Gwenlan.
LHeC could measure u and d couplings with ~1% precision
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Backup slides
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New physics example Leptoquarks: determine quantum Numbers at LHeC
Charge asymmetry much cleaner in ep than in pp. Similar for simultaneous determination of coupling and quark flavour. Polarisation for spectroscopy
JINST 1 2006 P10001
Single LQ production at LHC
Single LQ production at LHeC
e-p vs e+p asymmetries at LHeC will reveal the Fermion number F
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The LHeC has potential to completely unfold the partonic content of the proton: u,d, c,s, t,b for the first time and in an unprecedent kinematic range. This is based on inclusive NC, CC cross sections complemented by heavy quark identification.
Puzzles as u/d at large x or a strange-antistrange asymmetry will be solved.
Precision measurements are possible of xg (up to large x) and the beauty density which are of particular relevance for the LHC. The (almost) whole p structure which the LHC assumes to know will become accurately known. Determine s with permille level precision
Wealth of QCD tests with final states (not much discussed in this talk : Jets (study also photon structure), heavy flavours, prompt photons, other identified particles Low x and diffractive physics with ep and eA: Measuring multiple observables (F2, Fl, F2c, F2D, Vector mesons…) in ep and eA can lead to a microscopic understanding of non-linear evolution, unitarity constraints and parton saturation
Electroweak and new physics - Light quark couplings to Z at ~1% level - SM Higgs production for H-> bb coupling - New physics: Leptoquarks and quantum numbers, quark radius, leptons* and more!
Summary
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Backup slides
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Master formulae for NC DIS
Vary charge and polarisation and beam energy to disentangle contributions
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Charged Currents
Complete unfolding of all parton distributions to unprecedented accuracy
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5555
1⁰ and 179⁰ 2⁰ and 178⁰ 3⁰ and 177⁰ 4⁰ and 176⁰ 5⁰ and 175⁰
10⁰ and 170⁰
250217 250 250 217
17740 40
177
[cm]
289
112
4020
The High Lumi (High Q2)
SetupHaC-BarrelModules
EmC-Barrel
Central TrackingHaC-insert-2
EmC-insert-2
L1 Low Q2 SetUp High Q2 SetUp- Fwd/Bwd Tracking & EmC-Extensions, HaC-Insert-1 removed -Calo-Inserts in position-Strong Focussing Magnet installed
Strong FocussingMagnet
(to be optimised)
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O.B.
HERA 27.5 x 920
Obtained with PYTHIA, RAPGAP and LEPTO
LHeC is a multi
flavour factory
Events per 10 fb-1 Lumi
1010
108
4x106
4x105
105
103
Single Top