1 / 2

Put ICHEP no.

Put ICHEP no. THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY. Abstract

iden
Download Presentation

Put ICHEP no.

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Put ICHEP no. THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY Abstract The luminosity and collision energy of lepton proton collisions using the LHC and a LEP-size storage ring is explored assuming proton-proton collisions in parallel. A model accelerator layout demonstrates that luminosities in the order of L=1033cm-2sec-1 should be possible. IR DESIGN Match flat e beam bxp= 4byp LHeC: A LEPTON-PROTON COLLIDERWITH THE LHCJ.B. Dainton, Cockcroft Institute UK, Emmanuelle Perez, CE Saclay F, P. Newman, Birmingham University UK, M. Klein, F. Willeke, DESY Hamburg D Main parameters • PHYSICS • new lepton-quark physics @ TeV scale • - precision resonance spectroscopy • - precision anomalous dynamics • low-x physics • - dense chromodynamics: ep and eA • precision nucleon & nuclear structure • - parton densities for LHC @ LHC • - proton+heavy ion “structure” @ low x • - precision chromodynamics • - strong coupling constant • • precision photon structure • heavy flavour in nucleons, nuclei,photon • lepton structure • quark structure • discovery>2007: LHeC LHC LC • ep eA pp pA AAe+e-  Remains to design appropriate IR & appropriate e-Lattice LEPTON LATTICE Contraints: • beee = bpep • hourglass effect: be <sp • e Physical aperture in IR quads • e Dynamic aperture due to IR chromaticity • e Beam-beam interaction sensitivity due to large beta SYNCHROTRON RADIATION BEAM-BEAM INTERACTION qc=2mr 8se separation r=10000m • REQUIREMENTS • Ecm=1.4TeV  Ee=70GeV • L =1033cm−2s−1 • Use of the experience at HERA • lepton ring, to be installed above LHC • one interaction point. • proton-proton collisions take place • simultaneously, • proton beam parameters for LHeC are • determined by the existing LHC • parameters. Power density at collimator Central Beam-Beam Tune shifts PARAMETERS  Shorter cell than LEP desirable Bypass around ATLAC & CMS 1m long absorber sxp = sxe, syp = sye Parasitic BBI with 8se separation may be critical  needs further study with L=1033cm-2s-1 Npgp / eNp=3.2·1020m-1 IR Lattice functions e-Ring Parameters IR MAGNETS SC Septum Quadrupole Beam Power 50MW loss with Ee=70GeV Ie = 71mA Ne=1.3 1010

  2. THE COCKCROFT INSTITUTE of ACCELERATOR SCIENCE and TECHNOLOGY

More Related