Terascale Accelerator School

Name: Terascale Accelerator School
Start: 2008-03-10T08:00:00+01:00
End: 2008-03-14T19:00:00+01:00
Location: DESY

10 Mar 2008, 08:00 → 14 Mar 2008, 19:00 Europe/Berlin

DESY

Notkestraße 85 22607 Hamburg

Participants

Adrian Vogel
Alessandro Montanari
Aliaksandr Navitski
Anastasia Grebenyuk
Andre Sailer
Andrea Parenti
André Roth
Bastian Kargoll
Bertalan Feher
Cecilia Uribe Estrada
Christian Blume
Daniel Greenwald
Dirk Krücker
Eckhard Elsen
Fabian Klarner
Freddy Poirier
Guoxing Xia
Isabell Melzer
Julian Sauer
Karl Koller
Karsten Büßer
Lukas Püllen
Marc Wenskat
MariamSaleh Khan
Nicola Coppola
Nils Echterling
Oliver Boldt
Oliver Preisner
Philipp Roloff
Roman Spesyvtsev
Shaukat Khan
Simone Gilardoni
Thorsten Pusch
Uli Kötz
Uwe Renz
Wolfgang Hillert
Yu Bao

Support

isabell.melzer@desy.de

Monday, 10 March
- Registration
- Lectures
  - 1
    
    Accelerator Physics Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Accelerator magnets: Dipole magnets, Quadrupole magnets, Sextupole magnets, Multipole expansion Linear beam optics: Equations of motion, Matrix formalism, Particle beams and phase space Circular accelerators: Transverse beam dynamics, Longitudinal beam dynamics
    
    Speaker: Wolfgang Hillert
    
    Slides
  - 10:30
    
    break DESY
    
    DESY
    
    Notkestraße 85 22607 Hamburg
  - 2
    
    Superconducting RF Structures Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Standing wave accelerating structures: fundamental mode, higher order modes, dispersion of multicell cavities, field distribution, shunt impedance, numerical codes, coupling and tuning RF superconductivity: surface impedance, BCS surface resistance, residual losses, defect induced quench, electron loading, magnetic field limit, materials and surface preparation
    
    Slides
- Lunch break Canteen
  
  Canteen
  
  DESY
  
  Notkestraße 85 22607 Hamburg
- FLASH Visit
- 15:00
  
  break
- Exercises
  - 3
    
    Part I: Exercises Accelerator Physics Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Tutors: Fabian Klarner, Freddy Poirier
    
    Paper
    
    Slides
Tuesday, 11 March
- Lectures
  - 4
    
    Accelerator Physics Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Accelerator magnets: Dipole magnets, Quadrupole magnets, Sextupole magnets, Multipole expansion Linear beam optics: Equations of motion, Matrix formalism, Particle beams and phase space Circular accelerators: Transverse beam dynamics, Longitudinal beam dynamics
    
    Speaker: Wolfgang Hillert
  - 10:30
    
    break DESY
    
    DESY
    
    Notkestraße 85 22607 Hamburg
  - 5
    
    Superconducting RF Structures Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Standing wave accelerating structures: fundamental mode, higher order modes, dispersion of multicell cavities, field distribution, shunt impedance, numerical codes, coupling and tuning RF superconductivity: surface impedance, BCS surface resistance, residual losses, defect induced quench, electron loading, magnetic field limit, materials and surface preparation
    
    Slides
- Lunch break Canteen
  
  Canteen
  
  DESY
  
  Notkestraße 85 22607 Hamburg
- Exercises
  - 6
    Questions to Accelerator Physics Lectures and Part 2: Exercises Accelerator Physics Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    W. Hillert Tutors: Fabian Klarner, Freddy Poirier
    
    Exercises
    
    Solutions
    
    acc_beam.sci
    
    acc_functions.sci
    
    acc_phase.sci
    
    acc_twiss.sci
Wednesday, 12 March
- Lectures
  - 7
    
    Large Hadron Collider Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Hadron collider vs lepton collider, LHC lattice, LHC optics Luminosity, superconducting magnets, field quality Beam physics: dynamical aperture, electron clouds, ions Machine protection, collimation Commissioning and start-up Prospects for upgrade
    
    Speaker: Simone Gilardoni
    
    Slides
  - 10:30
    
    break DESY
    
    DESY
    
    Notkestraße 85 22607 Hamburg
  - 8
    
    Linear Colliders Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Quest for new physics at the Terascale Synchrotron radiation: origin, formalism, circular accelerators, electron light sources Elements of linear collider: e-, e+ source, damping ring, bunch compression, linac, final focus Linear accelerator: standing waves vs travelling wave accelerating structures, particle acceleration, beam dynamics, tolerances Luminosity, ILC project
    
    Speaker: Dr Eckhard Elsen (DESY)
    
    Slides
- Lunch break Canteen
  
  Canteen
  
  DESY
  
  Notkestraße 85 22607 Hamburg
- Exercises
  - 9
    
    Large Hadron Collider Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Tutor: Guoxing Xia
    
    Exercises
    
    Solutions
Thursday, 13 March
- Lectures
  - 10
    
    Large Hadron Collider Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Hadron collider vs lepton collider, LHC lattice, LHC optics Luminosity, superconducting magnets, field quality Beam physics: dynamical aperture, electron clouds, ions Machine protection, collimation Commissioning and start-up Prospects for upgrade
    
    Speaker: Simone Gilardoni
    
    Slides
  - 10:30
    
    break DESY
    
    DESY
    
    Notkestraße 85 22607 Hamburg
  - 11
    
    Novel Accelerator Concepts Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Introduction: Acceleration and its limitations, wakefields, short-pulse lasers Wakefield acceleration: basic ideas, example: CLIC Plasma-wakefield acceleration: electron bunches, using intense laser pulses Inverse free-electron lasers Other ideas
    
    Speaker: Shaukat Khan
    
    Slides
- Lunch break Canteen
  
  Canteen
  
  DESY
  
  Notkestraße 85 22607 Hamburg
- Exercises
  - 12
    Novel Accelerator Concepts Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Tutor: Isabell Melzer-Pellmann
    
    Exercises
    
    Solutions
    
    plasma1.sci
    
    plasma2.sci
    
    plasma3.sci
    
    plasma4.sci
- Dinner
Friday, 14 March
- Lectures
  - 13
    
    Novel Accelerator Concepts Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Introduction: Acceleration and its limitations, wakefields, short-pulse lasers Wakefield acceleration: basic ideas, example: CLIC Plasma-wakefield acceleration: electron bunches, using intense laser pulses Inverse free-electron lasers Other ideas
    
    Speaker: Shaukat Khan
  - 10:30
    
    break DESY
    
    DESY
    
    Notkestraße 85 22607 Hamburg
  - 14
    
    Linear Colliders Sem. R. 2
    
    Sem. R. 2
    
    DESY
    
    Notkestraße 85 22607 Hamburg
    
    Quest for new physics at the Terascale Synchrotron radiation: origin, formalism, circular accelerators, electron light sources Elements of linear collider: e-, e+ source, damping ring, bunch compression, linac, final focus Linear accelerator: standing waves vs travelling wave accelerating structures, particle acceleration, beam dynamics, tolerances Luminosity, ILC project
    
    Speaker: Dr Eckhard Elsen (DESY)
    
    Slides
- Lunch break Canteen
  
  Canteen
  
  DESY
  
  Notkestraße 85 22607 Hamburg
- Exercises Sem. R. 2
  
  Sem. R. 2
  
  DESY
  
  Notkestraße 85 22607 Hamburg
  - 15
    Linear Colliders
    
    Tutor: Karsten Büßer
    
    Paper
    
    Exercise1-2.sci
    
    Exercise3.sci
    
    Exercises.pdf
    
    Solutions.pdf

Terascale Accelerator School

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