Course online on semiconductor radiation detectors 2021

Contribution List

30. Welcome

4/19/21, 3:00 PM

31. Introduction

David Gascón (dgascon@icc.ub.edu)

4/19/21, 3:10 PM

1. Particle detectors for HEP

Dr P. Collins

4/19/21, 3:20 PM

Sensors, Interconnects

2. Interaction of particles with Matter

Dr F. Salvat

4/19/21, 5:25 PM

Sensors, Interconnects

3. Sensors, Interconnects

Dr S. Vahanen

4/20/21, 3:00 PM

Sensors, Interconnects

4. 3D interconection

Dr G. Parés

4/20/21, 5:25 PM

Sensors, Interconnects

5. Radiation effects on Electronics

Dr F. Faccio

4/21/21, 3:00 PM

Part 1: Microelectronics

6. Pulse Processing Electronics (Amplification/Filtering/Discrimination)

Dr P. O'Connor

4/21/21, 5:25 PM

Part 1: Microelectronics

7. Pulse Processing Electronics (Analog to Digital Conversion/Time to Digital Conversion)

Dr A. Rivetti

4/22/21, 3:00 PM

Part 1: Microelectronics

28. ams

Josef Pertl

4/22/21, 4:40 PM

Industrial Session

8. Design Methodologies

Dr X. Llopart

4/22/21, 5:25 PM

Part 1: Microelectronics

9. CMOS image and vision sensors

Dr A. Rodriguez

4/23/21, 3:00 PM

Part 2: Solid state detector technologies

10. Monolithic detectors, trends

Dr W. Snoeys

4/23/21, 5:25 PM

Part 2: Solid state detector technologies

13. Introduction to Hybrid pixel detectors

Dr R. Ballabriga

4/26/21, 3:00 PM

Part 2: Solid state detector technologies

14. Applications of Hybrid pixel detectors

Dr M. Campbell

4/26/21, 3:50 PM

Part 2: Solid state detector technologies

15. Photon Counting CT

Dr K. Taguchi

4/26/21, 5:25 PM

Part 3: Applications

16. Interface circuits for single-photon detection

Dr R. Carmona

4/27/21, 3:00 PM

Part 2: Solid state detector technologies

Single photons are the ultimate detection limit for electromagnetic radiation. By sensing individual photons, their energy and polarization, we know all aspects of the incident radiation. In basic sciences, singles photons are at the experimental foundations of quantum mechanics and measurement theory. In applied sciences, single-photon detection and photon counting is employed in high energy...

17. Mass spectrometry Imaging

Dr C. Vallance

4/27/21, 3:50 PM

Part 2: Solid state detector technologies

18. Imaging and time-stamping optical photons with nanosecond resolution

Prof. A. Nomerotski

4/27/21, 5:25 PM

Part 3: Applications

19. Scientillator materials

Dr E. Auffray

4/28/21, 3:00 PM

Part 2: Solid state detector technologies

29. PITEC

Larissa Helena Mendes

4/28/21, 4:40 PM

Industrial Session

20. Synchrotron and FEL Applications

Dr G. Blaj

4/28/21, 5:25 PM

Part 3: Applications

21. SiPM technology

Dr S. Vinogradov

4/29/21, 3:00 PM

Part 3: Applications

22. Introduction to fast timing applications in Medical Physics and photosensors in fast timing scintillator detectors

Dr D. Schaart

4/29/21, 5:25 PM

Part 3: Applications

23. Large Area Single Photon Sensors, applications and readout

Prof. D. Gascón

4/30/21, 3:00 PM

Part 2: Solid state detector technologies

24. PET and SPECT

Prof. Hamid Sabet

4/30/21, 3:50 PM

Part 3: Applications

25. Medical Imaging

Prof. Hamid Sabet

4/30/21, 5:25 PM

Part 3: Applications

26. Closing Lecture: 78 years of semiconductor nuclear detectors, and more to come

Prof. E. Heijne

4/30/21, 6:15 PM

Part 3: Applications

The explanation of the photo-electric effect in 1905 literally shed light on the structure of matter. Nevertheless, it still took 38 more years before the first practical solid semiconducting devices exploited this understanding for detection of ionizing nuclear particles. From then on, a succession of innovations has led to widespread use of semiconductor nuclear detectors in physics, space...

27. Direct Conversion

York Haemisch

Industrial Session

11. Monolithic detectors, trends

Dr W. Snoeys

12. Monolithic detectors, trends

Dr W. Snoeys