Name Event Date Name Event Date 1 CERN Super-LHC We acknowledge the support of the European Community-Research Infrastructure Activity under the FP6 "Structuring.

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Name Event Date Name Event Date 1 CERN Super-LHC 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 ) W. Scandale & F. ZimmermannSeptember 2008 W. Scandale, F. Zimmermann CERN

outline motivation & staged approach 3 upgrade scenarios luminosity levelling injector upgrade & schedule detector upgrade crab cavities beam-beam & e-cloud mitigation complementary advanced schemes strategy for “phase-2”

Three Strong Reasons for LHC Upgrade J. Strait ) after few years, statistical error hardly decreases 2) radiation damage limit of IR quadrupoles (~700 fb -1 ) reached by ~2016  time for an upgrade! 3) extending physics potential! hypothetical luminosity evolution

staged approach to LHC upgrade “phase-1” 2013: new triplets, D1, TAS,  *=0.25 m in IP1 & 5, reliable LHC operation at ~2-3x luminosity; beam from new Linac4 “phase-2” 2017: target luminosity 10x nominal, possibly Nb 3 Sn triplet &  *~0.15 m complementary measures : e.g. long-range beam-beam compensation, crab cavities, new/upgraded injectors, advanced collimators, coherent e- cooling??, e- lenses?? longer term (2020?): energy upgrade, LHeC,… phase-2 might be just phase-1 plus complementary measures + injector upgrade

Name Event Date Name Event Date5 LHC upgrade paths for IP1 & IP5 ultimate beam (1.7x10 11 protons/bunch, 25 spacing),  * ~10 cm ultimate beam (1.7x10 11 protons/bunch, 25 spacing),  * ~10 cm early-separation dipoles in side detectors, crab cavities early-separation dipoles in side detectors, crab cavities → hardware inside ATLAS & CMS detectors, first hadron crab cavities; off-  -beat first hadron crab cavities; off-  -beat stronger triplet magnets D0 dipole small-angle crab cavity J.-P. Koutchouk early separation (ES) stronger triplet magnets small-angle crab cavity ultimate LHC beam (1.7x10 11 protons/bunch, 25 spacing) ultimate LHC beam (1.7x10 11 protons/bunch, 25 spacing)  * ~10 cm  * ~10 cm crab cavities with 60% higher voltage crab cavities with 60% higher voltage → first hadron crab cavities, off-  -beat L. Evans, W. Scandale, F. Zimmermann full crab crossing (FCC) wire compensator larger-aperture triplet magnets 50 ns spacing, longer & more intense bunches 50 ns spacing, longer & more intense bunches (5x10 11 protons/bunch)  *~25 cm, no elements inside detectors  *~25 cm, no elements inside detectors long-range beam-beam wire compensation long-range beam-beam wire compensation → novel operating regime for hadron colliders, and for beam generation F. Ruggiero, W. Scandale. F. Zimmermann large Piwinski angle (LPA) New!

parametersymbolnominalultimateEarly Sep.Full Crab XingL. Piw Angle transverse emittance  [  m] 3.75 protons per bunchN b [10 11 ] bunch spacing  t [ns] beam currentI [A] longitudinal profile Gauss Flat rms bunch length  z [cm] beta* at IP1&5  [m] full crossing angle  c [  rad] Piwinski parameter  c  z /(2*  x *) hourglass reduction peak luminosityL [10 34 cm -2 s -1 ] peak events per #ing initial lumi lifetime  L [h] effective luminosity (T turnaround =10 h) L eff [10 34 cm -2 s -1 ] T run,opt [h] effective luminosity (T turnaround =5 h) L eff [10 34 cm -2 s -1 ] T run,opt [h] e-c heat SEY=1.4(1.3)P [W/m] 1.07 (0.44) 1.04 (0.59) 0.36 (0.1) SR heat load KP SR [W/m] image current heatP IC [W/m] gas-s. 100 h (10 h)  b P gas [W/m] 0.04 (0.38) 0.06 (0.56) 0.09 (0.9) extent luminous region  l [cm] comment nominalultimateD0 + crab crabwire comp. large Piwinski angle (LPA) full crab crossing (FCC) early separation (ES)

Name Event Date Name Event Date7 luminosity leveling ES or FCC LPA average luminosity initial luminosity peak may not be useful for physics (set up & tuning?) experiments prefer ~constant luminosity, less pile up at start of run, higher luminosity at end ES or FCC: dynamic  squeeze, or dynamic  change (either IP angle bumps or varying crab voltage) LPA: dynamic  squeeze, or dynamic change of bunch length how can we achieve this?

Name Event Date Name Event Date8 25 ns spacing 50 ns spacing IP1& 5 event pile up for 25 & 50-ns spacing w/o leveling ES or FCC LPA

50-ns upgrade with 25-ns collisions in LHCb upgrade bunch structures 25 ns 50 ns nominal 25 ns ultimate & 25-ns upgrade (ES & FCC) 50-ns upgrade (LPA), no collisions in LHCb! 50 ns 25 ns

Name Event Date Name Event Date 10 CERN W. Scandale & F. ZimmermannHHH, CARE Meeting, CERN, experimenters’ choice (LHCC July 2008) no accelerator components inside detector lowest possible event pile up possibility of easy luminosity levelling → full crab crossing upgrade New!

“Piwinski angle” luminosity reduction factor without crab cavity nominal LHC  c /2 effective beam size  →  /R  crab cavity motivation “LPA” upgrade “FCC” upgrade

CARE-HHH LHC Crab Cavity Validation Mini-Workshop, 21 August 2008 Bob Palmer invention 1988 crabbed beams in KEKB first use in operating ring collider 2007 LHC global crab LHC local crab global & local schemes considered for LHC  KEKB experience  R&D plan  phased approach: (1) prototype (2) “global” crab cavity test in IR4, (3) “local” crab cavities in IR1 & 5  EuCARD, US-LARP & international collaboration New!

Name Event Date Name Event Date 13 tentative schedule for crab-cavity prototype & first beam tests schedule T. Linnecar, HHH Crab-Cavity Validation Workshop August 2008 local crab cavities together with IR phase-2 ~2017 ? New!

Name Event Date Name Event Date14 LHC injector upgrade Reasons: need for reliability: need for reliability: accelerators are old accelerators are old [Linac2: 1978, PSB: 1975, PS: 1959, SPS: 1976] they operate far from their design parameters and close to hardware limits they operate far from their design parameters and close to hardware limits the infrastructure has suffered from the concentration of resources on LHC during the past 10 years the infrastructure has suffered from the concentration of resources on LHC during the past 10 years need for better beam characteristics need for better beam characteristics Roland Garoby, LHCC 1July ‘08

Name Event Date Name Event Date15 PSB SPS SPS+ Linac4 (LP)SPL PS LHC / SLHC DLHC Output energy 160 MeV 1.4 GeV 4 GeV 26 GeV 50 GeV 450 GeV 1 TeV 7 TeV ~ 14 TeV Linac2 50 MeV (LP)SPL: (Low Power) Superconducting Proton Linac (4-5 GeV) PS2: High Energy PS (~ 5 to 50 GeV – 0.3 Hz) SPS+: Superconducting SPS (50 to1000 GeV) SLHC: “Superluminosity” LHC (up to cm -2 s -1 ) DLHC: “Double energy” LHC (1 to ~14 TeV) Proton flux / Beam power present and future injectors PS2 Roland Garoby, LHCC 1July ‘08

layout of the new injectors SPS PS2 SPL Linac4 PS R. Garoby, CARE-HHH BEAM07, October’07; L. Evans, LHCC, 20 Feb ‘08

R. Garoby, LHCC 1 July 2008 injector upgrade schedule synchronized with LHC IR upgrades LHC IR phase 1 LHC IR phase 2

long-range beam-beam compensation LR beam- beam in LHC prototype compensator in the SPS New! distance [mm] inverse relative loss at various tunes New! G. Sterbini, J.-P. Koutchouk U. Dorda, et al, SPS MD August 2008

Name Event Date Name Event Date 19 electron lens use of e-lens as tune-spread compressor improves simulated LHC beam lifetime (phase to IP important) A.Valishev, CARE-HHH mini-workshop on beam-beam Compensation, 28 August 2008 New!

Name Event Date Name Event Date 20 “crab-waist” collisions at DAFNE (note: no crab cavities but sextupoles!) luminosity current product w/o crab waist with crab waist can we make use of crab waists at the LHC? C. Milardi New!

Name Event Date Name Event Date 21 crab waist in LHC? one example:  =3.5 in LPA option  y squeezed to  x /  =2.1cm (extreme!) → L increases (14/2.1) 1/2 =2.6 times →  y decreases and  x is small for LPA → “crab waist has a chance to work!” K. Ohmi CARE-HHH mini-workshop 28 August ‘08 New!

Name Event Date Name Event Date 22 crab-waist collisions crab-waist collisions K. Ohmi vertical focus moves through the beam horizontally New!

Name Event Date Name Event Date 23 Evaporation of metals in relatively high pressure of a rare gas produces very rough and porous films. Already mentioned in the literature, “gold black” has been produced and characterized. Gold black deposited by evaporation in Kr (0.5 mbar) e-cloud mitigation for PS2 and SPS upgrade; effort triggered by HHH ECL’2 workshop P. Chiggiato et al promising: graphite coating on black gold substrate no dependence on time of exposure to air New!

Name Event Date Name Event Date 24 crystal collimation experiments in SPS North area since result: crystal deflection of 450 GeV protons with an array of five aligned crystals parallel simulation effort approved experiment in SPS ring proper W. Scandale et al New!

Name Event Date Name Event Date 25 lower beam emittance can compensate for luminosity loss due to large crossing angle [R. Garoby] may be provided by new injectors and/or by “coherent e- cooling” [V. Litvinenko] CeC proof-of- principle experiment at RHIC in 2012 damping times in hours: promise of 1-hr damping time at 7 TeV!

Name Event Date Name Event Date 26 strategy for “phase 2” pursue vigorous R&D program for larger-aperture higher-field magnets parallel crab-cavity development and testing design, production & installation of wire compensator already in phase-0 exploration of complementary schemes, like crab waist, coherent e-cooling, e-lenses, crystal collimation; integrate them into upgrade plan when they become available establish generation method long flat bunches identify main limitations of the real LHC LHC machine studies to explore upgrade scenarios, e.g. large Piwinski angle close coordination with detector upgrades