- Elemental abundancies and their observation, Isotopes
- Basics of nuclear physics (binding energy, decays, nucear reactions)
- Experimental techniques (accelerators, targets, detectors, excitation functions)
- Basic astrophysics (stellar engery production and evolution, big bang, nucleosynthesis scenarios)
- Gamma-line astronomy, sources, galactic chemical evolution, cosmochronometers
data set up-to-date
Scope:
lecture: 2 hours/week tutorials: 1 hours/week
Time/location:
FR(4) SE2/201 (hybrid) siehe Kommentar
Tutorials:
Group
Time/location:
MI(6) ugW. ASB/328
Audience:
Vertiefung Bachelor (PV) und Master (alle)
Specialization area:
Teilchen- und Kernphysik (Vorlesung im Wahlpflichtvertiefungsgebiet)
Previous knowledge:
Einführung in die Kern- und Teilchenphysik
Certificate:
Enrolment:
Web-reference:
Literatur:
C. Rohlfs, Cauldrons in the cosmos
B. Pagel, Nucleosynthesis and chemical evolution of galaxies
C. Iliadis, Nuclear Physics of stars
D. D. Clayton, Principles of stelar evolution and nucleosynthesis