Challenges and goals for accelerators in the XXI century
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書誌事項
Challenges and goals for accelerators in the XXI century
World Scientific, c2016
- : hbk
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注記
Includes bibliographical references
収録内容
- Motivation for particle accelerator development
- Energy revolution: from static fields to cavity resonators
- The world's first colliders: Adone, VEP
- Lepton colliders and the Zoo of elementary particles in the 70s: PETRA, SPEAR, PEP
- The LEP e+ e- ring at the energy frontier of circular lepton colliders
- SLAC: the highest energy linear collider
- B-factories
- The Cosmotron ('53) and the Bevatron ('54): the first GeV
- The PS ('59) and AGS ('60): first strong focusing proton synchrotrons
- ISR: the world's first proton collider (appr. '65; 1st collisions '71)
- The SPS ('76): the first proton-antiproton collider; stochastic cooling; discovery of neutral currents and the W and Z bosons
- The antiproton accumulator and collector rings and the discovery of the W&Z intermediate bosons
- Fermilab antiproton sourcem recycler ring and main injector
- Production of antiprotons at CERN and the unique rf manipulations in the PSB & PS
- Tevatron: the world's first fully superconducting collider; discovery of the Top and Bottom quark
- Neutrino production and spallation sources: Kamiokande (cosmic rays), NuMi and MINOS (FERMILAB) - Soudan mine); n-TOF and NA64 at SPS; ISIS (Rutherford Laboratory)
- HERA: the world's first and only proton electron collider
- Circular light sources
- XFEL light sources
- SSC; ISABELLE ('78 groundbreaking)-> CBA ('81) -> cancelled ('83)
- GSI: heavy ion facility
- ISOLDE and Rex: a rare isotope facility
- LEAR and AD antiproton facilities: production of anti-Hydrogen
- B-factories: the luminosity frontier: KEK-B upgrade projects
- RHIC: the first dedicated heavy ion collider; bunched beam cooling for ions
- The LHC project: the energy frontier of high energy particle physics
- The LHC ion program
- The LHC upgrade plans: increasing the performance of the LHC
- The LHC injector complex upgrade: existing challenges and upgrade plans
- HE-LHC: the quest for increasing the energy of the LHC
- Electron-ion collider eRHIC (coherent electron cooling, energy recovery linac)
- LHeC: the option of a TeV scale Lepton Hadron collider using the LHC infrastructure
- ILC and CLIC: design of a high energy lepton collider
- Circular lepton colliders as an option for a Higgs factory: the highest energy circular lepton collider
- HIE ISOLDE
- FAIR project at GSI
- ELENA anti proton facility
- CNGS: Neutrino appearance physics
- European Spallation Source
- Neutrino factory proton driver and target design
- The quest for power: high power proton drivers in the XXI century
- Plasma acceleration
- Energy recovery linacs
- FFAGS: front end for neutrino factories and medical accelerators
- Fast cooling and Muon acceleration and the prospect of Muon colliders
- HITGSI: SIS a medical treatment facility
- Medaustron: the Austrian cancer treatment facility
- Industrial projects (Siemens in Kiel and Marburg, IBA)
- Other options for Hadron treatment facilities (e.g. LEIR at CERN etc)
