Terascale Accelerator School

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

DESY

Monday, 10 March

08:30 → 09:00 Registration

09:00 → 12:30 Lectures

09:00 Accelerator Physics

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 Hillert.pdf

10:30 break

11:00 Superconducting RF Structures

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 200803_DESY_TAS_LL_new.pdf 200803_DESY_TAS_LL_new.ppt

12:30 → 14:00 Lunch break

14:00 → 15:00 FLASH Visit

15:00 → 15:30 break

15:30 → 17:00 Exercises

15:30 Part I: Exercises Accelerator Physics

Tutors: Fabian Klarner, Freddy Poirier

Paper PinconD.pdf

Slides SciLab_introduction.pdf

Tuesday, 11 March

09:00 → 12:30 Lectures

09:00 Accelerator Physics

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

11:00 Superconducting RF Structures

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 200803_DESY_TAS_LL_2nd_lecture.pdf 200803_DESY_TAS_LL_2nd_lecture.ppt

12:30 → 14:00 Lunch break

14:00 → 19:00 Exercises

14:00 Questions to Accelerator Physics Lectures and Part 2: Exercises Accelerator Physics

W. Hillert Tutors: Fabian Klarner, Freddy Poirier

Exercises Terascale_Exercises_V2_1.doc

Solutions

• acc_beam.sci
• acc_functions.sci
• acc_phase.sci
• acc_twiss.sci

Wednesday, 12 March

09:00 → 12:30 Lectures

09:00 Large Hadron Collider

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 simo_desy1_web.pdf

10:30 break

11:00 Linear Colliders

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 Elsen_LC_I.pdf

12:30 → 14:00 Lunch break

14:00 → 19:00 Exercises

14:00 Large Hadron Collider

Tutor: Guoxing Xia

Exercises exercise1.pdf

Solutions solutions.pdf

Thursday, 13 March

09:00 → 12:30 Lectures

09:00 Large Hadron Collider

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 simo_desy2_web.pdf

10:30 break

11:00 Novel Accelerator Concepts

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 terascale-khan1.pdf

12:30 → 14:00 Lunch break

14:00 → 19:00 Exercises

14:00 Novel Accelerator Concepts

Tutor: Isabell Melzer-Pellmann

Exercises terascale-khan-exercise.pdf

Solutions

• plasma1.sci
• plasma2.sci
• plasma3.sci
• plasma4.sci

19:00 → 22:00 Dinner

Friday, 14 March

09:00 → 12:30 Lectures

09:00 Novel Accelerator Concepts

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

11:00 Linear Colliders

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 Elsen_LC_II.pdf

12:30 → 14:00 Lunch break

14:00 → 19:00 Exercises

14:00 Linear Colliders

Tutor: Karsten Büßer

Paper

• Exercise1-2.sci
• Exercise3.sci
• Exercises.pdf
• Solutions.pdf