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1 Scenarios for the LHC Upgrade Walter Scandale & Frank Zimmermann BEAM 2007 CERN We acknowledge the support of the European Community-Research Infrastructure Activity under the FP6 "Structuring the European Research Area" programme (CARE, contract number RII3-CT )

2 outline upgrade motivation & time frame two scenarios beam parameters; features; IR layouts merits and challenges impact of β* * luminosity evolution luminosity leveling (incl. β* dependence) bunch structures injector upgrade conclusion

3 Large Hadron Collider (LHC) proton-proton collider c.m. energy 14 TeV (7x Tevatron) design luminosity cm -2 s -1 (~100x Tevatron) start of beam commissioning in 2008 LHC baseline luminosity was pushed in competition with SSC

4 Physics at the LHC: 14 TeV Higgs! Extra Dimensions? Black Holes??? j 1j W t j 2 b-jet Supersymmetry? Precision Unitarity triangle! measurements e.g top! QGP? The LHC will be the new collider energy frontier Albert de Roeck, Bodrum 2007

5 Two Strong Reasons for LHC Upgrade J. Strait 2003 hypothetical luminosity evolution 1) After a few years, statistical error hardly decreases. 2) Radiation damage limit of IR quadrupoles (~700 fb -1 ) reached by ~2016 Time for an upgrade!

6 A Third Reason: Extending the Physics Potential of LHC 10x higher luminosity extends discovery range by ~ 25% in mass & precision by a factor of ~2 Examples studied in detail Electroweak Physics Production of multiple gauge bosons (n V 3) triple and quartic gauge boson couplings Top quarks/rare decays Higgs physics Rare decay modes Higgs couplings to fermions and bosons Higgs self-couplings Heavy Higgs bosons of the MSSM Include pile up, detector Supersymmetry (up to masses of 3 TeV) Extra Dimensions Direct graviton production in ADD models Resonance production in Randall-Sundrum models TeV -1 scale models Black Hole production hep-ph/ Quark substructure Strongly-coupled vector boson system W L Z L g W L Z L, Z L Z L scalar resonance, W + LW + L New Gauge Bosons Albert de Roeck, Bodrum 2007

7 LHC Upgrade 10x higher luminosity ~10 35 cm -2 s -1 (SLHC) Requires changes of the machine and particularly of the detectors Upgrade to SLHC mode around Collect ~3000 fb -1 /experiment in 3-4 years data taking. much later: higher energy? (DLHC) LHC can reach s = 15 TeV with present magnets (9T field) s of 28 (25) TeV needs ~17 (15) T magnets R&D needed! Even some ideas on increasing the energy by factor 3 (P. McIntyre) Run I s Run II s Int Lumi (run I) Int. Lumi (expected/runii) Tevatron 1.8 TeV 1.96 TeV 100 pb -1 ~4-8 fb -1 HERA 300 GeV 320 GeV 100 pb -1 ~500 pb -1

8 three LHC challenges collimation & machine protection - damage, quenches, cleaning efficiency, impedance electron cloud - heat load, instabilities, emittance growth beam-beam interaction - head-on on, long-range, weak-strong, strong-strong Frank Zimmermann, Scenarios for the LHC Upgrade, BEAM 07

9 electron cloud in the LHC schematic of e- cloud build up in the arc beam pipe, due to photoemission and secondary emission [F. Ruggiero]

10 long-range g beam-beam 30 long-range collisions per IP, 120 in total

11 crossing angle R 1 θ σ 1+ φ 2σσ x c z φ = ; φ Piwinski angle 2 luminosity reduction factor θ c /2 nominal LHC effective beam size σ σ/r φ

12 CARE-HHH workshops CARE-HHH APD workshop LUMI 06 (70 participants) Towards a Roadmap for the Upgrade of the LHC and GSI Accelerator Complex IFIC, Valencia (Spain), October 2006 strong synergy with US-LARP mini collaboration meeting Oct IR scheme, beam parameters, injector upgrade Frank Zimmermann, Scenarios for thelhc Upgrade, BEAM07

13 parameter transverse emittance protons per bunch symbol nominal ultimate 12.5 ns, short ε [μm] protons per bunch N b [ ] bunch spacing beam current longitudinal profile rms bunch length beta* at IP1&5 full crossing angle Piwinski parameter peak luminosity Δt t [ns] I [A] Gauss baseline upgrade Gauss parameters Gauss σ z [cm] β [m] θ c [μrad] φ=θ c σ /(2*σ z x *) peak luminosity L [10 34 cm - 2 s - 1 ] peak events per crossing initial lumi lifetime effective luminosity (T turnaround =10 h) effective luminosity (T turnaround =5 h) e-c heat SEY=1.4(1.3) τ L [h] L eff [10 34 cm T run,opt [h] L eff [10 34 cm T run,opt [h] cm - 2 s - 1 ] [h] cm - 2 s - 1 ] [h] P [W/m] 1.07 (0.44) 1.04 (0.59) (7.85) SR heat load K P SR [W/m] image current heat P IC [W/m] gas-s. s. 100 h (10 h) τ b P gas [W/m] 0.04 (0.38) 0.06 (0.56) (1.13) extent luminous region σ l [cm] comment partial wire c. Frank Zimmermann, Scenarios for the LHC Upgrade, BEAM07 abandoned at LUMI 06 (SR and image current heat load well known) total heat far exceeds max. local cooling capacity of 2.4 W/m

14 parameter transverse emittance protons per bunch N b [1011 bunch spacing beam current symbol Early Separation Large Piwinski Angle ε [μm] ] two new upgrade scenarios Δt t [ns] I [A] longitudinal profile Gauss Flat rms bunch length beta* at IP1&5 full crossing angle Piwinski parameter σ z [cm] β [m] θ c [μrad] φ=θ c σ /(2*σ z x *) hourglass reduction peak luminosity L [10 34 cm - 2 s - 1 ] compromises between cm - 2 s - 1 ] # pile up events and cm - 2 s - 1 ] heat load 34 cm peak events per crossing initial lumi lifetime τ L [h] effective luminosity L eff [10 cm (T turnaround =10 h) T run,opt [h] effective luminosity L eff [10 cm (T turnaround =5 h) T run,opt [h] e-c heat SEY=1.4(1.3) P [W/m] 1.04 (0.59) 0.36 (0.1) SR heat load K P SR [W/m] image current heat P IC [W/m] gas-s. s. 100 h (10 h) τ b P gas [W/m] 0.06 (0.56) 0.09 (0.9) extent luminous region σ l [cm] comment D0 + crab (+ Q0) wire comp.

15 for operation at beam-beam limit with alternating ti planes of crossing at ttwo IPs L f γ 1 rev = nb * 2 r β p LPA N b ES LPA LPA ES ( ΔQ ) bb FprofileFhg LPA LPA where (ΔQ bb ) = total beam-beam tune shift; ES peak luminosity with respect to ultimate LHC (2.4 x nominal): ES: x 6 x 1.3 x 0.86 = 6.7 LPA: ½ x2 x2.9x1.3 x1.4 = 5.3 what matters is the integrated luminosity Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM 07 PAF/POFPA Meeting 20 November 2006

16 luminosity lifetime τ = 1 2 N N& b b = * nb N b 4πεβ = L σ f N bσσ rev b inversely eseypopoto proportional to luminosity (L ~10x up from nominal) and proportional to β* larger luminosity lifetime requires higher total beam current ~ n b N b EITHER more bunches n b (previous 12.5 ns scheme) OR higher charge per bunch N b (LPA scheme) + luminosity leveling (see later) Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM 07 PAF/POFPA Meeting 20 November 2006

17 LHC upgrade path 1: early separation (ES) ultimate LHC beam (1.7x10 11 protons/bunch, 25 spacing) squeeze β* * to ~10 cm in ATLAS & CMS add early-separation dipoles in detectors starting at ~ 3mfromIP possibly also add quadrupole-doublet doublet inside detector at ~13 m from IP and add crab cavities (φ Piwinski ~ 0) new hardware inside ATLAS & CMS detectors, first hadron crab cavities stronger triplet magnets optional D0 dipole Q0 quad s J.-P. Koutchouk ultimate bunches + near head-on collision

18 LHC upgrade path 2: large Piwinski angle (LPA) double bunch spacing to 50 ns, longer & more intense bunches with φ Piwinski ~ 2 β*~25 cm, do not add any elements inside detectors long-range beam-beam wire compensation novel operating regime for hadron colliders larger-aperture triplet magnets F. Ruggiero, W. Scandale. F. Zimmermann fewer, long & intense bunches + nonzero crossing angle + wire compensation

19 ES scenario assessment merits: most long-range collisions negligible, no geometric luminosity loss, no increase in beam current beyond ultimate, could be adapted to crab waist collisions (LNF/FP7) challenges: D0 dipole deep inside id detector t (~3 m from IP), optional Q0 doublet inside detector (~13 m from IP), strong large-apertureaperture quadrupoles (Nb 3 Sn) crab cavity for hadron beams (emittance growth), or shorter bunches (requires much more RF) 4 parasitic collisions at 4-5σ separation, off-momentum β beating 50% at δ=3x10-4 compromising collimation efficiency, i low beam and luminosity lifetime ~β* Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM 07 PAF/POFPA Meeting 20 November 2006

20 Are there slots for a D0 dipole in ATLAS? We cannot put the D0 in the inner detector BUT there are potential slots starting at 3.5 m and 6.8 m (ATLAS) G. Sterbini, J.-P. Koutchouk, LUMI 06 Courtesy of M. Nessi, Machine upgrade, ATLAS considerations, June 2006 Frank Zimmermann, Scenarios for the LHC Upgrade, BEAM07

21 Where would we put the D0 in ATLAS? G. Sterbini, J.-P. Koutchouk, LUMI 06 Frank Zimmermann, Scenarios for the LHC Upgrade, BEAM07

22 ES scheme needs crab cavities 5σ separation at t4 closest encounters 3.5 m from IP β*=11 cm Frank Zimmermann, Scenarios for the LHC Upgrade, BEAM07

23 crab rf vs bunch shortening rf bunch shortening rf voltage: V rf ε , rmsc Cη 1 ε, rmsc Cη θ c 4 4 *4 E0 2πf σ rf z E0 2πf rf σ x unfavorable scaling as 4 th power of crossing angle and inverse 4 th power of IP beam size; can be decreased by reducing the longitudinal emittance; inversely proportional to rf frequency crab cavity rf voltage: V crab = ce ( ) tan / 2 0 e2 θ ce c 0 πf R e4πf R rf 12 rf 12 ti l t i l & i d d t f IP b i l proportional to crossing angle & independent of IP beam size; scales with 1/R 12 ; also inversely proportional to rf frequency θ c

24 F. Zimmermann, U. Dorda, LUMI 05

25 LPA scenario assessment merits: no elements in detector, no crab cavities, lower chromaticity, less demand on IR quadrupoles (NbTi expected to be possible), could be adapted to crab waist collisions (LNF/FP7) challenges: operation with large Piwinski parameter unproven for hadron beams (except for CERN ISR), high bunch charge, beam production and acceleration through h SPS, larger beam current, wire compensation (almost etablished), off-momentum β beating ~30% at δ=3x10-4 Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM 07 PAF/POFPA Meeting 20 November 2006

26 motivation for flat bunches & LPA luminosity for Gaussian bunches L Gauss 1 f coll γ 2 r β * p ΔQ luminosity for flat bunches L flat 1 fcollγ 2 r β * r p ΔQ tot tot N N b b F. Ruggiero, G. Rumolo, F. Zimmermann, Y. Papaphilippou, RPIA2002 for the same total number of particles and the same total tune shift from two IPs the luminosity will be ~1.4x higher with a flat bunch distribution; also: the number of particles N b can be increased independently of ΔQ tot only in the regime of large Piwinski angle Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM 07 PAF/POFPA Meeting 20 November 2006

27 geometric luminosity reduction vs β* crossing angle + hourglass Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM 07 PAF/POFPA Meeting 20 November 2006

28 average luminosity vs β* including crossing angle + hourglass, assuming optimum run time for 5 h turn-around Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM 07 PAF/POFPA Meeting 20 November 2006

29 aside: crab waist scheme for LHC? P. Raimondi M. Zobov requires: -flat beams (β y *<<ββ x *) -large Piwinski angle (like LPA) β y *~σ x */θ (like ES) crab-waist sextupole transformation possible approach: go to flat beams, combine ingredients of LPA & ES schemes, add sextupoles Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM 07 PAF/POFPA Meeting 20 November 2006

30 IP1& 5 luminosity evolution for ES and LPA scenario ES LPA average luminosity initial luminosity peak may not be useful for physics (set up & tuning?) Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM 07 PAF/POFPA Meeting 20 November 2006

31 IP1& 5 event pile up for ES and LPA scenario LPA ES Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM 07 PAF/POFPA Meeting 20 November 2006

32 experiments prefer more constant luminosity, less pile up at the start of run, higher luminosity at end how could we achieve this? luminosity leveling ES: dynamic β squeeze dynamic θ change (either e IP angle bumps or varying crab voltage) LPA: dynamic β squeeze, and/or dynamic reduction in bunch length Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM07 PAF/POFPA Meeting 20 November 2006

33 run time & average luminosity w/o leveling with leveling luminosity evolution beam current evolution optimum run time average luminosity L N T () t () t run ave = = = τ L = Lˆ Lˆ ( 1 + t / τ ) 2 1 eff N 0 ( 1+ + t /τ ) eff T t τ eff turn around τ eff 2 2 ( τ 1/ 1/ ) 2 eff + Tturn around L = L 0 const T ave N = N run L = = ΔN L 0 σ 1 + ΔN 0 max N 0 tott max L n N τ 0 τ lev N 0 n b N 0 n b τ eff = nip Lˆ τ lev = σ tot nip L0σ tot τ 0 IP n b lev T t turn around Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM07 PAF/POFPA Meeting 20 November 2006

34 examples ES, low β*, LPA, long bunches, with leveling with leveling events/crossing run time N/A 2.5 h av. luminosity it N/A x10 34 s -1 cm -2 events/crossing run time 2.5 h 14.8 h av. luminosity 26x10 2.6x10 34 s -1 cm -2 29x10 2.9x10 34 s -1 cm -2 events/crossing run time 9.9 h 26.4 h av. luminosity it x10 34 s -1 cm x s -1 cm -2 assuming 5 h turn-around time Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM07 PAF/POFPA Meeting 20 November 2006

35 average luminosity & run time vs. final β, l b for ES with β* squeeze for LPA with β* squeeze for LPA with l b reduction Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM07 PAF/POFPA Meeting 20 November 2006

36 old upgrade bunch structure 25 ns nominal 25 ns ultimate 12.5-ns upgrade 12.5 ns abandoned at LUMI 06 Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM07 PAF/POFPA Meeting 20 November 2006

37 new upgrade bunch structures 25 ns nominal 25 ns ultimate & 25-ns upgrade 50-ns upgrade, no 50 ns 50-ns upgrade with 25-ns 50 ns 25 ns collisions in LHCb Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM07 PAF/POFPA Meeting 20 November 2006

38 DG White Paper Injector Upgrade Proton flux / Beam power 50 MeV 160 MeV Linac2 Linac4 1.4 GeV ~ 5GeV PSB SPL RCPSB SPL Out tput energy 26 GeV GeV 450 GeV 1 TeV 7 TeV ~ 14 TeV PS SPS LHC PS2 (PS2+) SPS+ DLHC Linac4: PSB injector (160 MeV) SPL: Superconducting Proton Linac (~ 5 GeV) SPL : RCPSB injector (0.16 to GeV) RCPSB: Rapid Cycling PSB (0.4-1 to ~ 5 GeV) PS2: High Energy PS (~ 5 to 50 GeV 0.3 Hz) PS2+: Superconducting PS (~ 5to50GeV 50 03Hz) 0.3 SPS+: Superconducting SPS (50 to1000 GeV) DLHC: Double energy LHC (1 to ~14 TeV) M. Benedikt, R. Garoby Frank Zimmermann, Scenarios for the LHC Upgrade, BEAM07

39 injector upgrade needed for ultimate LHC beam reduced turn around time & higher integrated luminosity 4x10 11 protons spaced by 25 ns (now ~ ) beam production: for ES straightforward for LPA e.g. omitting last double splitting in PS (or PS2) numerous techniques for bunch flattening Frank LHC Zimmermann, Upgrade Beam Scenarios Parameters, for the Frank LHC Zimmermann Upgrade, BEAM07 PAF/POFPA Meeting 20 November 2006

40 summary -1 two scenarios of fl L~10 35 cm - 2 s - 1 for which h heat tl load and #events/crossing are acceptable early separation: pushes β*; requires slim magnets inside detector, crab cavities, & Nb 3 Sn quadrupoles and/or optional Q0 doublet; attractive if total beam current is limited; luminosity leveling via β* * or θ c (e.g. crab voltage) large Piwinski angle: fewer longer bunches of higher charge ; can probably bl be realized with NbTi IR technology if needed ; Q0 also an option here ; compatible with LHCb ; open issues are SPS & hadron beam-beam effects at large Piwinski angle; luminosity leveling via bunch length or via β* off-energy β beating common concern, worse at lower β* Frank Zimmermann, Scenarios for the LHC Upgrade, BEAM07

41 summary -2 first two or three years of LHC operation will clarify severity of electron cloud, long-range beam-beam collisions, impedance etc. first physics results will indicate whether or not magnetic elements can be installed inside the detectors these two experiences may decide upgrade path crab waist option could be further explored Frank Zimmermann, Scenarios for the LHC Upgrade, BEAM07

42 BEAM 07 goals assess potential show-stoppers stoppers for the two alternative upgrade paths (LPA and ES) compare their respective luminosity reach advance designs of LHC injector upgrade & GSI FAIR project Frank Zimmermann, Scenarios for the LHC Upgrade, BEAM07

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