DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY with M Klein (Univ Liverpool) P Newman (Univ Birmingham), E Perez (CERN) F Willeke (DESY Hamburg and BNL) and more and more …… ! LHeC an unprecedented probe of hadronic dynamics 1.Why? 2.How? 3. When? 4. Summary John Dainton Cockcroft Institute and Univ Liverpool, Daresbury Science and Innovation Campus, GB hep-ex/ , JINST 1 (2006) P10001, and DIS06 Proceedings
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY 1.Why?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Why: Leptons Quarks ? how are leptons and quarks related ? put them together at the highest energy at finest detail ICHEP86 Berkeley
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY s eq >TeV LHeC TeV eq Kinematic Reach space-like >TeV 3× Q 2 ≤ 30,000 GeV 2 - s eq ≤ (300 GeV) 2 in ~ 0.7 am ● 2007: HERA - Q 2 ≤ 2×10 6 GeV 2 - s eq ≤ (2000 GeV) 2 in ~ 0.1 am ! ● ≥2016?: LHeC ee RL am? Q2Q2 s eq
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY TeV LHC LHeC SM (hadronic) + signal Lq & LqLq production σ ~ few × 0.1 fb (Λ=0.1) SM (electroweak) + signal Lq formation σ ~ 100 fb (Λ=0.1) ● leptoquark systems – new physics + SM Re + resonance
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY TeV ● leptoquark systems – new physics +SM 1 TeV LHeC ×10 -2 LHC LHeC LHC
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY experim l signature e, q e+ F=0 e- F=2 qq g Lq Lq production mechanism ? disentangle mass spectrum ? e q e q ** LHC Lq pairs+decayLHeC Lq formation+decay fermion number e+ e- q or q ? _ _ _ _ TeV spin parity and chirality defined formation (e LR ) precision BRs (NC CC) inclusive coherence unique PWA SM + signal + interference jets + leptons jet+lepton+p T balance jet +p T imbalance
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY experim l signature e, q e+ F=0 e- F=2 gq Lq l production mechanism ? disentangle mass spectrum ? e q e q ** LHC Lq +decayLHeC Lq formation+decay fermion number _ TeV spin parity and chirality defined formation (e LR ) precision BRs (NC CC) inclusive coherence unique PWA SM + signal + interference jet + leptons jet+lepton+p T balance jet +p T imbalance
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Chadwick Cambridge nucleus nucleon quark NC+CC+gluon ● LHeC g+EW ? ● unique chiral fm ? ● protons+neutrons Manchester SLAC ● 70 7000 GeV e ± p cm energy 1400 GeV SM + new Lq ~ fm ? TeV Why: Structure of SM + q ~ fm ? Z W ee RL ? Q 2 y x ee ee QCD
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY ● precision extrapolation discovery probe new chromodynamic physics – beyond SM ? ● short distance structure of SM ppm G 10 ppm % 1-2% - LHeC + detector few ‰ precision QCD at highest energy Unification ?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY ● LHeC Chadwick Cambridge nucleus nucleon quark NC+CC+gluon g+EW ● protons+neutrons Manchester SLAC ? ● unique chiral fm ? = 0.1 am ● 70 7000 GeV e ± p cm energy 1400 GeV TeV Heavy Flavour in Hadron Chromodynamics ~ fm heavy flavour Z W ee RL ? Q 2 y ee ee x NC + Z b SM + q ~ fm ?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY …… underpins discovery what we have to find ● Higgs at LHC what we know now Heavy Flavour in Hadron Chromodynamics …… what we could know X=?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Most of the mass of ordinary matter is concentrated in protons and neutrons. It arises from …[a]… profound, and beautiful, source. Numerical simulation of QCD shows that if we built protons and neutrons in an imaginary world with no Higgs mechanism - purely out of quarks and gluons with zero mass - their masses would not be very different from what they actually are. Their mass arises from pure energy, associated with the dynamics of confinement in QCD, according to the relation m = E/c 2. This profound account of the origin of mass is a crown jewel in our Theory of Matter. Frank Wilcek CERN October 11, 2000 Why: Dense Colour ? probe hadronic matter at highest parton density
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY QCD is headline stuff ! ● found on a Guardian web page ● found on Frank Wilcek’s blackboard
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY - x Bj ≥ 5× x Bj ≥ 5×10 -7 TeV eq Kinematic Reach space-like >TeV s eq >TeV - Q 2 ≥ 1 GeV 2 ● 2007: HERA LHeC x Q 2 y ee ee - Q 2 ≥ 1 GeV 2 ● ≥2016?: LHeC Growing Field Energy Density 3×10 -7
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Growing Field Energy Density ● ≥2016?: LHeC -x Bj ≥ 5×10 -7 Gluon recombination x Q 2 y ee ee low x large nuclei - Q 2 ≥ 1 GeV 2 Q 2 size of gluons x Bj phase space for gluons p and A
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY ● low-x rise of F 2 - HERA: x > 10 Q 2 =10 GeV 2 ● relentless rise of quark (F 2 ) and gluon ∂F 2 / ∂lnQ 2 Gluon HERA
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Gluon LHeC (Jeff Forshaw) (10 fb -1 ) HERA ● low-x rise of F 2 - LHeC: x > 10 Q 2 =250 GeV 2 stat 0.1% sys 2-3% ● LHeC “nails” saturation
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Gluon LHeC ● ep saturation Q 2 ≤ 5 GeV 2 eA saturation Q 2 ≤ 20 GeV 2 ● LHeC “nails” saturation
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Partons in Nuclear Matter ● fundamental to origin of mass in Universe - from nucleon valence to QCD-field dominated (x) - increasing number of valence partons (A) ● very limited but tantalising old data - Q
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY DGLAP 1 C dynamics in p and A ● low-x reach at LHeC x > 10 Q 2 =250 GeV 2 (x =βx I ) ● low x physics of P P in P: triple R QCD reggeon calculus ? I P low-βI III ?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY 1 C dynamics in p and A ● low-x P physics at LHeC I ● LHeC diffraction “nails” saturation
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY 1 C dynamics in p and A ● P physics at LHeC I ● * P 100 GeV I ● e P 100 GeV: leptopomerons ? I ● rapidity ≤ 5 θ ≤ few o
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY 2.How?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Proton beam ● ”standard” LHC protons protons antiprotons protons N p ε pN … with electrons? protons electrons?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY ep Luminosity ● few 10s GeV electrons (LEP = 70 GeV!) ● RF power = 50 MW = 0.86 LEP = 28% CERN site ● RF power = synchrotron radiation I e = 74 mA luminosity 74×10 -3 ×1.67×10 11 ×7000/.938 4π×1.6× ×3.75×10 -6 × = L = 1.15×10 33 / (m 2 ) cm -2 s -1 L ~ cm -2 s -1 for reasonable p-beam β ~ 1 m “perfect” bunch x-ing
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY ● L LHeC e ± p fm e ± p Luminosity ● astounding ! ● ×10 2 L NMC 0.01 fm ● L eRHIC e pol p pol fm indisputably a next step … is it feasible ? ● ×10 2 L HERA e pol fm ×10
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Lepton Ring ● in LEP tunnel … so like LEP - FODO in eight arcs β-tron phase advance φ H =108 o φ V =90 o - bending radius m - (δE/E beam ) rms = 1.1× SR 26 W/cm (E c =254 KeV) - 1GHz 12 MV/m 100 m structure = 670 cells sync. phase 31 o bucket takes 10× (δE/E beam ) rms - unlikely e-beam instability single bunch current modest impedance << LEP LEP=9 W/cm HERA=13.5 W/cm scRF > 6 MV/m
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY ep Collisions ● after B LHC ep alongside pp LHC p e civil engineering tunnel 2×250m×2m LHeC
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Interaction Region ● highest lumi - low β e close sc quads - low X-ing angle “hard” bend 8σ beam sep n SR fan sc p-beam « HERA - “crab” RF cavity p-bunch rotation 3.5 mrad 0.5 mrad V-displaced top elevation 11.4 kW 3.4 kW3.2 kW ● 1 o beam access = low-lumi/low-x option (cf HERA) “crabbed” (rotated) p-bunch
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY ● beam-beam - “hour-glass” - dynamic β: < HERA - long range beam-beam (parasitic interactions): marginal Operational Luminosity operational luminosity
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY LHeC ● tunnel exists (LEP, LHC) ● injection once existed (LEP) ? ● operating p-beam (from 2008) ● operating A-beam (from 2008) ● ep eA operating alongside pp pA AA ● the TeV ep collider ! ● ”minimal” mods to LHC ! ● LHC upgrade ● cost ?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY IR and Experiment ● IR ±many m ● IR ≥9.4 o around beam
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY electron Asymmetric Collider quark p 7 TeVe 70 GeV ● asymmetric beam momenta: LHeC ~ TeV ● ”forward” hemisphere detection to multiTeV topological challenge precision challenge quads ?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY 3.When?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Timeline ● 2007: form working groups + steering committee initial meeting of conveners + committee SAC overview ● 2008: workshop I ● 2009: workshop II LHeC Design Study [LHCC] ● 2011: TDR - construction 8 years - installation e-ring above LHC ~1 year - LHeC part of LHC upgrade - be aware of CLIC progress
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Working Group Structure ● accelerator (injector, ring) ● interaction region ● detector ● the new physics ● high precision QCD ● low x physics ● eA to be discussed tbc (SAC)
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY LHeC Scientific Advisory Committee Experimentalists Joel Feltesse (Saclay/DESY) Roland Horisberger (PSI) Aharon Levy (Tel Aviv) Richard Milner (MIT) Allen Caldwell (MPI München) John Dainton (Univ Liverpool) Accelerator Stephen Myers (CERN) Roland Garoby (CERN) Swapan Chattopadhyay (Cockcroft Inst) Ferdy Willeke (DESY/BNL) Theory Guido Altarelli (Roma) Stan Brodsky (SLAC) Lev Lipatov (Petersburg) John Ellis (CERN) Frank Wilczek (MIT) Labs Jos Engelen (CERN) Rolf Heuer (DESY) Young-Kee Kim (Fermilab) Peter Bond (BNL)
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY 4.Summary
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Now ● LHeC 70 e 7000 p GeV - can be built - has startlingly good luminosity ≥ cm -2 s -1 grows with LHC pp luminosity - adds substantially, uniquely, and with synergy to LHC TeV discovery physics - probes new density frontier in uniquely comprehensive manner ep eA with unchallengable precision synergetically with LHC pp pA AA
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY LHeC and ILC ● energy for eq discovery extreme chromodynamics ● precision for eq discovery eq understanding extreme chromodynamics ● luminosity for eq discovery LHeC and LHC Lepton + TeV
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY In case you were wondering … ? Sir John Cockcroft … doing accelerator physics ca 1950 … … with 1950 DAQ – pencil and paper! … with 1950 graphics – ammeter! voltmeter!
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Extras
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Lepton-Parton and Parton-Parton ? Z W ee RL ? ? g q ? ? ep eX pp (jet+jet)X probe-parton jet LHeC energy scale: 70 7000 GeV pp energy scale: 7000 7000 GeV x probe/p = 0.01 probe+p at LHeC scale
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY LHC probe parton - xq = xU +xD +xU +xD g :q ~ 2:1 ● x 0.01 ● x » 0.01 g :q 0 “mixed” LHC LHeC energy q LHC LHC top energy
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Lepton-Parton and Parton-Parton Z W ee RL ? ? g q ? ? ep eX pp (jet+jet)X probe-parton jet precise probe e precise kinematics smaller kinematic reach but - eq eq “formation” TeV - precision at lower x Bj ≥10 -7 probe g and q kinematics ? larger kinematic reach x larger probe q q/gq/g eqeq pair production
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Barber LHeC
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY What’s been achieved ● Sokolov-Ternov + HERA
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY What’s been achieved ● LEP 70 GeV
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Diffraction and Rapgap rapgap η max η proton P + R II HERA LHeC ~ 3 ● LHeC ?
DIFF07 DESY Hamburg May 2007 THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY