Eighth International Accelerator School for Linear Colliders

from Wednesday, 4 December 2013 (08:00) to Sunday, 15 December 2013 (22:00)


        : Sessions
    /     : Talks
        : Breaks
5 Dec 2013
6 Dec 2013
7 Dec 2013
8 Dec 2013
9 Dec 2013
10 Dec 2013
11 Dec 2013
12 Dec 2013
13 Dec 2013
14 Dec 2013
15 Dec 2013
AM
09:00
Introduction & Lecture 0 -Dr Weiren Chou (Fermilab) (until 09:30) ()
slides
09:30 Lecture I1 - Introduction - Prof. Masao KURIKI (Hiroshima Univ.)   ()
Slides
09:00 Lecture I3 – CLIC - Frank Tecker (CERN)   ()
Homework questions
Slides
Video
09:00 Joint lecture AB2 –Instrumentation basics - Hermann Schmickler   ()
Homework
Part I
Part II
09:00 Course A: Accelerator physics Lecture A1 – Linac - Daniel Schulte (CERN)   ()
Homework
Homework Solutions
Slides
09:00 Course B: Accelerator technology Lecture B1 – Room temperature RF - Walter Wuensch   ()
Hardware
09:00 Course A: Accelerator physics Lecture A1 – Linac - Daniel Schulte (CERN)   ()
Homework
Slides
09:00 Course B: Accelerator technology Lecture B1 – Room temperature RF - Walter Wuensch   ()
HOM damping
Wakefields
09:00 Course A: Accelerator physics Lecture A3a – Damping rings - Dr Yannis Papaphilippou (CERN)   ()
09:00 Course B: Accelerator technology Lecture B1 – Room temperature RF - Dr Walter WUENSCH (CERN)   ()
09:00 Course A: Accelerator physics Lecture A3a – Damping rings - Dr Yannis Papaphilippou (CERN)   ()
09:00 Course B: Accelerator technology Lecture B2 – Superconducting RF - Dr Takayuki SAEKI (KEK)   ()
Slides
09:00 Course A: Accelerator physics Lecture A3a – Damping rings - Dr Yannis Papaphilippou (CERN)   ()
document
Slides
09:00 Course B: Accelerator technology Lecture B3 – Instrumentation - Hermann Schmickler   ()
Slides
09:00 Course A: Accelerator physics Lecture A3b – Ring colliders - Dr Yannis Papaphilippou (CERN)   ()
document
Slides
09:00 Course B: Accelerator technology Lecture B4 – LLRF & high power RF - Dr Stefan Simrock (ITER) Dr Zheqiao Geng (PSI)   ()
09:00 Course A: Accelerator physics Lecture A4 – Beam delivery system and beam-beam - Prof. Andrei Seryi (John Adams Institute)   ()
Slides
09:00 Course B: Accelerator technology Lecture B4 – LLRF & high power RF - Dr Stefan Simrock (ITER) Dr Zheqiao Geng (PSI)   ()
08:00 Final Exam   ()
PM
14:00 Lecture I2 – ILC - Prof. Masao KURIKI (Hiroshima Univ.)   ()
Homework
Homework Answers
Slides
19:00 Tutorial & homework   ()
14:00 Joint lecture AB1 – Linac basics - Daniel Schulte (CERN)   ()
Homework
Homework Solutions
Slides
19:00 Tutorial & homework   ()
14:00 Course A: Accelerator physics Lecture A1 – Linac - Daniel Schulte (CERN)   ()
Homework
Homework Solutions
Slides
14:00 Course B: Accelerator technology Lecture B1 – Room temperature RF - Walter Wuensch   ()
Coupling
Homework problems
Introduction
19:00 Tutorial & homework   ()
14:00 --- Excursion ---
19:00 Tutorial & homework   ()
14:00 Course A: Accelerator physics Lecture A2 – Sources - Dr Masao Kuriki (KEK)   ()
Homework
homework answer
Slides
14:00 Course B: Accelerator technology Lecture B2 – Superconducting RF - Dr Takayuki SAEKI (KEK)   ()
Slides
19:00 Tutorial & homework   ()
14:00 Course A: Accelerator physics Lecture A2 – Sources - Dr Masao Kuriki (KEK)   ()
homework
Homework Answer
Slides
14:00 Course B: Accelerator technology Lecture B2 – Superconducting RF - Dr Takayuki SAEKI (KEK)   ()
Slides
19:00 Tutorial & homework   ()
14:00 Excursion   ()
19:00 Tutorial & homework   ()
14:00 Course A: Accelerator physics Lecture A3a – Damping rings - Dr Yannis Papaphilippou (CERN)   ()
document
Slides
14:00 Course B: Accelerator technology Lecture B2 – Superconducting RF - Dr Takayuki SAEKI (KEK)   ()
Slides
19:00 Tutorial & homework   ()
14:00 Course A: Accelerator physics Lecture A4 – Beam delivery system and beam-beam - Prof. Andrei Seryi (John Adams Institute)   ()
document
Slides
14:00 Course B: Accelerator technology Lecture B4 – LLRF & high power RF - Dr Stefan Simrock (ITER) Dr Zheqiao Geng (PSI)   ()
19:00 Tutorial & homework   ()
14:00 Study time   ()
19:00 Study Time   ()
14:00 Free time   ()
19:00 Banquet   ()