Number of hours
- Lectures 0
- Projects 0
- Tutorials 0
- Internship 0
- Laboratory works 40.0
- Written tests 0
ECTS
ECTS 3.5
Goal(s)
The labworks in nuclear instrumentation represent an introduction to the practice of basic to advanced nuclear detection techniques used both in the electronuclear and the subatomic fields. The students work in a team of two during 8 hours sessions. Six topics are addressed: alpha/beta/gamma spectroscopies, slowing-down and detection of neutrons, gamma-gamma coincidences, ionisation chamber.
Contact Christophe SAGEContent(s)
Alpha spectroscopy using a Si-junction
- Beta spectroscopy with a plastic scintillator
- Gamma spectroscopy using a HP-Ge junction
- Gamma-gamma coincidences
- Slowing-down of neutrons and attenuation length, detection of thermal and fast neutrons
- Activation and period measurements
- Ionization chamber
Prerequisites
Coursework based on reports written by the pairs of students during the labworks
Contrôle continu : CC
Examen écrit Session1 : DS1
Examen écrit Session 2 : DS2
N1 = Note finale session 1
N2 = Note finale session 2
En présentiel :
N1 = % max(TdE, CC) + % DS1
N2 = % max(TdE, CC) + % DS2
En distanciel :
N1 =
N2 =
Commentaire :
This course brings 1.5 ECTS to students in UE Energy 2
Glenn F. KNOLL, "Radiation Detection and Measurement", John Wiley and Sons Ed., 2010
William R. LEO, "Techniques for Nuclear and Particle Physics Experiments: A How-To Approach", Springer-Verlag, 1994