Fifth International Accelerator School for Linear Colliders

25 Oct 2010, 18:30 → 6 Nov 2010, 18:00 Europe/Zurich

Villars-sur-Ollon

Announcement Announcement

Curriculum 2010_curriculum_v5.pdf

Lecturers 2010_lecturers.pdf

List of Students 2010_student_all_62.pdf

List of Students - Course A 2010_student_course_A_38.pdf

List of Students - Course B 2010_student_course_B_24.pdf

Syllabus 2010_syllabus.pdf

Tuesday 26 October

09:00 → 10:30 break

10:30 → 14:00 Lecture I2 – ILC

• e- and e+ sources • Bunch compressors and spin rotators • Damping rings • Main linac • Beam delivery system • Civil construction issues

Speaker: Prof. Barry Barish (GDE)

Homework Lecture_I1-I2_barish_homework.docx

Slides

• Lecture_I2_Barish_(2pp).pdf
• Lecture_I2_Barish_light_background.pdf
• Lecture_I2_Barish.ppt

14:00 → 16:30 Tutorial & homework

16:30 → 20:00 Lecture I1 – Introduction

• Tera scale physics • ILC and LHC • Layout of the ILC • Parameter choices & optimization • Other possible future lepton colliders: CLIC and the muon collider • Detectors

Speaker: Prof. Barry Barish (GDE)

Slides

• Lecture_I1_Barish_(2pp).pdf
• Lecture_I1_Barish_light_background.pdf
• Lecture_I1_Barish.ppt

Wednesday 27 October

09:00 → 12:30 Lecture I3 – CLIC

• Klystron vs. beam driven acceleration • CLIC layout • Parameter choices & optimization • Driver beam stability • Comparison of the CLIC and ILC • Technical challenges

Speaker: Frank Tecker (CERN)

Homework questions Homework_questions_for_the_CLIC_lecture_2010.pdf

Slides clic-ilc-school-2010-final.pptx clic-ilc-school-2010.pdf

12:30 → 14:00 break

14:00 → 17:30 Lecture I4 – Muon collider

• Muon collider basics • Machine layout • Major sub-systems • Challenges

Speaker: Dr Robert B Palmer (BNL)

Homework Lecture_I4_Palmer_homework.pdf

Slides Lecture_I4_Palmer.pdf

18:30 → 20:30 Tutorial & homework

Thursday 28 October

09:00 → 12:30 Joint lecture of Courses A & B: Linac basics

Homework Lecture_A&B_Schulte_homework.pdf

slides Lecture_A&B_Schulte_I0.pdf

12:30 → 14:00 break

14:00 → 17:30 Course A:

14:00 Accelerator physics Lecture A1 – Linac

Speaker: Daniel Schulte (CERN)

Homework Lecture_A1_Schulte_homework_1.pdf

Slides l0_short.pdf Lecture_A1_Schulte_I1.pdf

14:00 → 17:30 Course B:

14:00 RF technology Lecture B1 – Room temperature RF (12 hours)

Speaker: Erk Jensen (CERN)

Homework Homework_RT_RF_I.pptx

Mathematica Notebook Villars.nb

Slides NCRFEJ.pdf

18:30 → 20:30 Tutorial & homework

Friday 29 October

09:00 → 12:30 Course A:

09:00 Accelerator physics Lecture A1 – Linac (cont’d)

Speaker: Daniel Schulte (CERN)

Homework Lecture_A1_Schulte_homework_2.pdf

Slides Lecture_A1_Schulte_I3.pdf Lecture_A1_Schulte_I4.pdf

09:00 → 12:30 Course B:

09:00 RF technology Lecture B1 – Room temperature RF (cont’d)

Speaker: Erk Jensen

12:30 → 14:00 break

14:00 → 17:30 Excursion

18:30 → 20:30 Tutorial & homework

Saturday 30 October

09:00 → 12:30 Course A:

09:00 Accelerator physics Lecture A1 – Linac (cont’d)

Speaker: Daniel Schulte (CERN)

Homework Lecture_A1_Schulte_homework_3.pdf

Slides Lecture_A1_Schulte_I5.pdf Lecture_A1_Schulte_I6.pdf

09:00 → 12:30 Course B:

09:00 RF technology Lecture B1 – Room temperature RF (cont’d)

Speaker: Alexej Grudiev (CERN)

Homework WarmRF_II_AG_HomeWorkProblems.pdf WarmRF_II_AG_HomeWorkProblems.pptx

Slides

• Wakefiled_Illustrations.pdf
• Wakefiled_Illustrations.pptx
• WarmRF_II_AG.pdf
• WarmRF_II_AG.pptx
• WarmRF_IIB_Jones.pdf

12:30 → 14:00 break

14:00 → 17:30 Course A:

14:00 Accelerator physics Lecture A2 – Sources (6 hrs)

Speaker: Dr Masao Kuriki (KEK)

Homework Lecture_A2_Kuriki_homework.pdf

Slides Electron1_101020.pdf Electron2_101020.pdf

14:00 → 17:30 Course B:

14:00 RF technology Lecture B1 – Room temperature RF (cont’d)

Speaker: Walter Wuensch

Homework Lecture_B1_Wuensch_homework.xlsx

Slides

• Warm_rf_ww_section_1.pdf
• Warm_rf_ww_section_1.pptx
• Warm_rf_ww_section_2.pdf
• Warm_rf_ww_section_2.pptx
• Warm_rf_ww_section_3.pdf
• Warm_rf_ww_section_3.pptx

18:30 → 20:30 Tutorial & homework

Sunday 31 October

09:00 → 12:30 Course A:

09:00 Accelerator physics Lecture A2 – Sources (cont'd)

Speaker: Dr Masao Kuriki (KEK)

Slides Positron_101020.pdf

09:00 → 12:30 Course B:

09:00 RF technology Lecture B2 – Superconducting RF (12 hrs)

Speaker: Mr Jean Delayen (Jefferson Lab)

Homework Lecture_B2_Delayen_homework.docx Lecture_B2_Delayen_homework.pdf

Slides Lecture_B2_Delayen_part_2_rev.pdf Lecture_B3_Delayen_part_1.pdf

12:30 → 14:00 break

14:00 → 17:30 Course A:

14:00 Accelerator physics Lecture A3 – Damping rings (12 hrs)

Speaker: Dr Mark Palmer (Cornell University LEPP)

Homework Lecture_A3_M_Palmer_homework_part_1.pptx

Slides Lecture_A3_M_Palmer_Part1.pdf Lecture_A3_M_Palmer_Part1.pptx

14:00 → 17:30 Course B:

14:00 RF technology Lecture B2 – Superconducting RF (cont’d)

Speaker: Mr Jean Delayen (Jefferson Lab)

Slides Lecture_B3_Delayen_part_3.pdf

18:30 → 20:30 Tutorial & homework

Monday 1 November

09:00 → 12:30 Course A:

09:00 Accelerator physics Lecture A3 – Damping rings (cont)

Speaker: Dr Mark Palmer (Cornell University LEPP)

Handouts Lecture_3A_DR_Part2_Handouts.pdf

Homework Lecture_A3_M_Palmer_homework_part_2.pdf

09:00 → 12:30 Course B:

09:00 RF technology Course B: RF technology

Speaker: Mr Jean Delayen (Jefferson Lab)

Slides Lecture_B3_Delayen_part_4.pdf

14:00 → 17:30 Excursion

18:30 → 20:30 Tutorial & homework

Tuesday 2 November

09:00 → 12:30 Course A:

09:00 Accelerator physics Lecture A3 – Damping rings (cont’d)

Speaker: Dr Mark Palmer (Cornell University LEPP)

Handouts Lecture_3A_DR_Part3_Handouts.pdf

09:00 → 12:30 Course B:

09:00 RF technology Lecture B2 – Superconducting RF (cont’d)

Speaker: Mr Jean Delayen (Jefferson Lab)

Slides Lecture_B3_Delayen_part_5.pdf

12:30 → 14:00 break

14:00 → 17:30 Course A:

14:00 Accelerator physics Lecture A3 – Damping rings (cont’d)

Speaker: Dr Mark Palmer (Cornell University LEPP)

Slides Lecture_3A_DR_Part4_Handouts.pdf

14:00 → 17:30 Course B:

14:00 RF technology Lecture B3 – LLRF & high power RF (9 hrs)

Speaker: Dr Stefan Simrock (DESY)

Homework B3_LLRF_HPRF_homework_problems.pdf

Slides

• lecture_B-3_Simrock_part_0.pdf
• Lecture_B-3_Simrock_part_1a.pdf
• Lecture_B-3_Simrock_part_1b.pdf
• lecture_B-3_Simrock_part_2.pdf

18:30 → 20:30 Tutorial & homework

Wednesday 3 November

09:00 → 12:30 Course A:

09:00 Accelerator physics Lecture A4 – Beam delivery system and beam-beam (6 hrs)

Speaker: Prof. Andrei Seryi (John Adams Institute)

Homework Lecture_A4_Seryi_homework.doc

Slides ILC10_ACC-Lecture-A4_Seryi.pdf ILC10_ACC-Lecture-A4_Seryi.pptx

09:00 → 12:30 Course B:

09:00 RF technology Lecture B3 – LLRF & high power RF (cont’d)

Speaker: Dr Stefan Simrock (DESY)

Slides

• Lecture_B-3_Simrock_part_3.1.pdf
• Lecture_B-3_Simrock_part_3.2.pdf
• Lecture_B-3_Simrock_part_3.3.pdf
• Lecture_B-3_Simrock_part_3.4.pdf
• Lecture_B-3_Simrock_part_3.5.pdf
• Lecture_B-3_Simrock_part_3.6.pdf
• Lecture_B-3_Simrock_part_3.7.pdf

12:30 → 14:00 break

14:00 → 17:30 Course A:

14:00 Accelerator physics Lecture A4 – Beam delivery system and beam-beam (cont’d)

Speaker: Prof. Andrei Seryi (John Adams Institute)

14:00 → 17:30 Course B:

14:00 RF technology Lecture B3 – LLRF & high power RF (cont’d)

Speaker: Dr Stefan Simrock (DESY)

Lecture

• Lecture_B-3_Simrock_part_4.1.pdf
• Lecture_B-3_Simrock_part_4.2a.pdf
• Lecture_B-3_Simrock_part_4.2b.pdf
• Lecture_B-3_Simrock_part_4.2.pdf
• Lecture_B-3_Simrock_part_4.3.pdf
• Lecture_B-3_Simrock_part_4.4.pdf
• Lecture_B-3_Simrock_part_4.5.pdf
• Lecture_B-3_Simrock_part_4.6.pdf

18:30 → 20:30 Tutorial & homework

Thursday 4 November

09:00 → 12:30 Study Time

14:00 → 17:30 Study Time

18:00 → 20:30 Study Time

Friday 5 November

09:00 → 12:30 Final Exam

14:00 → 17:30 Free Time

20:00 → 22:00 Banquet