Course Information


Course Information
Course Title Code Semester L+U Hour Credits ECTS
DESIGN OF PARTICLE DETECTOR AND SIMULATIONS I 200100715101 4 + 0 4.0 9.0

Prerequisites None

Language of Instruction Turkish
Course Level Graduate Degree
Course Type Compulsory
Mode of delivery
Course Coordinator
Instructors Hatice YILDIZ
Assistants
Goals It is aimed to understand the structure of the most basic detector, material, working principles, design and modeling of particle response.
Course Content Detector geometry, main detector components, material an alloys, modeling detectors with ROOT, combined shapes, creating particle traces and observation, fast simulation
Learning Outcomes 1) Software, hardware development applications on accelerator system parts.
2) Accelerators in different areas of technology apply diagnostic-analysis purposes.
3) Learn and comment on accelerators used as vehicles in other areas.

Weekly Topics (Content)
Week Topics Teaching and Learning Methods and Techniques Study Materials
1. Week Introduction Lecture
Colloquium
Brain Based Learning
Homework
2. Week Detector geometry Lecture
Colloquium
Project Based Learning
Homework
3. Week Detector geometry Lecture
Colloquium
Brain Based Learning
Homework
4. Week Main detector components Lecture
Colloquium
Project Based Learning
Homework
5. Week Main detector components Lecture
Colloquium
Problem Based Learning
Homework
6. Week Material and alloys Lecture
Colloquium
Project Based Learning
Homework
7. Week Material and alloys /Midterm Question Answer
Colloquium
Brain Based Learning
Homework
8. Week Modeling detectors with ROOT Lecture
Brainstorming
Brain Based Learning
Homework
9. Week Modeling detectors with ROOT Lecture
Colloquium
Brain Based Learning
Homework
10. Week Modeling detectors with ROOT Lecture
Colloquium
Problem Based Learning
Homework
11. Week Combined shapes Lecture
Colloquium
Brain Based Learning
Homework
12. Week Creating particle traces and observation Lecture
Colloquium
Project Based Learning
Homework
13. Week Creating particle traces and observation Lecture
Colloquium
Project Based Learning
Homework
14. Week Fast simulation Lecture
Colloquium
Problem Based Learning
Homework
15. Week Final Exam Lecture
Colloquium
Brain Based Learning
Project (Including Preparation and presentation Time)

Sources Used in This Course
Recommended Sources
F. Sauli.. Proceedings of III ICFA School on Instrumentation in Particle Physics, Rio de Janeiro, 1990, C.U.P. 1986
K. Kleinknecht - Detectors for Particle Radiation, C.U.P. 1990
R.K. Bock & A. Vasilescu - The Particle Detector BriefBook, Springer 1998
W.R. Leo - Techniques for Nuclear and Particle Physics Experiments, Springer-Verlag 1987
W.R. Leo - Techniques for Nuclear and Particle Physics Experiments, Springer-Verlag 1987

Relations with Education Attainment Program Course Competencies
Program RequirementsContribution LevelDK1DK2DK3
PY15000
PY25000
PY35000
PY45000
PY55000
PY85555
PY95555
PY105555
PY115555
PY125555
PY135444
PY144444
PY154444
PY174444
PY184444

*DK = Course's Contrubution.
0 1 2 3 4 5
Level of contribution None Very Low Low Fair High Very High
.

ECTS credits and course workload
Event Quantity Duration (Hour) Total Workload (Hour)
Course Duration (Total weeks*Hours per week) 14 4
Work Hour outside Classroom (Preparation, strengthening) 14 5
Homework 3 5
Presentation (Including Preparation Time) 1 20
Project (Including Preparation and presentation Time) 1 30
Report (Including Preparation and presentation Time) 1 30
Midterm Exam 1 2
Time to prepare for Midterm Exam 1 20
Final Exam 1 5
Time to prepare for Final Exam 1 30
Total Workload
Total Workload / 30 (s)
ECTS Credit of the Course
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Course Information