International Accelerator School for Linear Colliders - Program Calendar

	Saturday, May 20	Sunday, May 21	Monday, May 22	Tuesday, May 23
Morning 09:00 - 12:30	Welcome by Shin-ichi Kurokawa Opening Remarks by Weiren Chou Lecture 1 - Introduction I (90) Fumihiko Takasaki (KEK) Why LC What's ILC Layout of ILC Overview of issues Lecture 2 - Introduction II (90) Tor Raubenheimer (SLAC) Parameter choices & optimization	Lecture 5 - Damping ring basics (180) Susanna Guiducci (INFN-LNF) Betatron motion Synchrotron motion Beam energy Beam emittance Radiation damping Intrabeam scattering	Lecture 7 – ILC Linac basics (90) Chris Adolphsen (SLAC) Linac basic principles SW linacs and structures SRF parameter constraints Beam loading and coupling Lorentz force detuning Lecture 8 - ILC Linac beam dynamics (90) Kiyoshi Kubo (KEK) Lattice layout Beam quality preservation RF field stability Wakefield and dampers HOMs Alignment tolerances Vibration problems Beam based alignment	Lecture 9 - High power RF (60) Stefan Choroba (DESY) RF system overview Modulators Klystrons RF distribution Lecture 10 - SRF basics (120) Shuichi Noguchi (KEK) Superconductivity basics SRF peculiarities Cavity design criteria Various constraints ILC BCD Cavity
Afternoon 14:00 - 17:30	Lecture 3 - Sources (120) Masao Kuriki (KEK) e- gun e+ sources Polarized sources Lecture 4 - Bunch compressors (60) Eun-San Kim (Kyungpook National University) Bunch compressors Spin rotator	Lecture 6 - Damping ring design (180) Andy Wolski (University of Liverpool) Options Lattice Parameter optimization Machine acceptance E-cloud, space charge and instability issues Wigglers Kickers and other technical systems	Field trip to Kamakura	Lecture 11 - SRF cavity technology (180) Peter Kneisel (Jlab) Material issues Cavity fabrication and tuning Surface preparation Gradient limit and spread Power Coupler HOM Couplers Slow and fast tuner Path to ILC
Evening 19:00 - 20:30	Tutorial & homework	Tutorial & homework	Free time	Tutorial & homework

Saturday, May 20

Sunday, May 21

Monday, May 22

Tuesday, May 23

Morning
09:00 - 12:30

Welcome
by Shin-ichi Kurokawa

Opening Remarks
by Weiren Chou

Lecture 1 - Introduction I (90)

Fumihiko Takasaki (KEK)

Why LC
What's ILC
Layout of ILC
Overview of issues

Lecture 2 - Introduction II (90)

Tor Raubenheimer (SLAC)

Parameter choices & optimization

Lecture 5 - Damping ring basics (180)

Susanna Guiducci (INFN-LNF)

Betatron motion
Synchrotron motion
Beam energy
Beam emittance
Radiation damping
Intrabeam scattering

Lecture 7 – ILC Linac basics (90)

Chris Adolphsen (SLAC)

Linac basic principles
SW linacs and structures
SRF parameter constraints
Beam loading and coupling
Lorentz force detuning

Lecture 8 - ILC Linac beam dynamics (90)

Kiyoshi Kubo (KEK)

Lattice layout
Beam quality preservation
- RF field stability
- Wakefield and dampers
- HOMs
- Alignment tolerances
- Vibration problems
- Beam based alignment

Lecture 9 - High power RF (60)

Stefan Choroba (DESY)

RF system overview
Modulators
Klystrons
RF distribution

Lecture 10 - SRF basics (120)

Shuichi Noguchi (KEK)

Superconductivity basics
SRF peculiarities
Cavity design criteria
Various constraints
ILC BCD Cavity

Afternoon
14:00 - 17:30

Lecture 3 - Sources (120)

Masao Kuriki (KEK)

e- gun
e+ sources
Polarized sources

Lecture 4 - Bunch compressors (60)

Eun-San Kim (Kyungpook National University)

Bunch compressors
Spin rotator

Lecture 6 - Damping ring design (180)

Andy Wolski (University of Liverpool)

Options
Lattice
Parameter optimization
Machine acceptance
E-cloud, space charge and instability issues
Wigglers
Kickers and other technical systems

Field trip to Kamakura

Lecture 11 - SRF cavity technology (180)

Peter Kneisel (Jlab)

Material issues
Cavity fabrication and tuning
Surface preparation
Gradient limit and spread
Power Coupler
HOM Couplers
Slow and fast tuner
Path to ILC

Evening
19:00 - 20:30

Tutorial & homework

Free time

Tutorial & homework

	Wednesday, May 24	Thursday, May 25	Friday, May 26	Saturday, May 27
Morning 09:00 - 12:30	Lecture 12 - ILC cryomodule (60) Carlo Pagani (INFN-Milano) ILC cryogenics and rational ILC cryomodule concept Lecture 13 – Room-temperature RF (120) Hans Braun (CERN) Room temperature cavity and gradient limit CLIC design	Lecture 16 - Instrumentation & feedback (180) Marc Ross (SLAC) Beam monitoring Precision instrumentation Feedback systems	Bus from Sokendai to KEK	Lecture 19 - Detectors (90) Hitoshi Yamamoto (Tohoku Univ.) ILC detectors Lecture 20 - Physics (90) Rolf-Dieter Heuer (DESY) ILC physics Physics beyond 1 TeV e-e- and gamma-gamma options ILC and XFEL
Afternoon 14:00 - 17:30	Lecture 14 - Beam delivery (120) Andrei Seryi (SLAC) Beam delivery system overview Collimation Machine-detector interface, shielding and beam dump Beam monitoring and control at final focus Lecture 15 - Beam-beam (60) Daniel Schulte (CERN) Beam-beam interaction	Lecture 17 - Conventional facilities (90) Vic Kuchler (Fermilab) Overview Tunneling Site requirement Lecture 18 - Operations (90) Marc Ross (SLAC) Reliability Availability Remote control and global network Closing remarks and student awards ceremony (20)	KEK tour B-Factory Photon Factory SRF ATF	Special lecture - ATF (90) Junji Urakawa (KEK) Machine introduction Machine performance ATF2 and R&D plan Diagnostics Site visit to ATF
Evening 19:00 - 20:30	Tutorial & homework	Tutorial & homework	Free time	Free time

Wednesday, May 24

Thursday, May 25

Friday, May 26

Saturday, May 27

Morning
09:00 - 12:30

Lecture 12 - ILC cryomodule (60)

Carlo Pagani (INFN-Milano)