WS 2017 SS 2017
WS 2016
WS 2015 SS 2016
Department of Physics
open chemistry
KVL / Klausuren / MAP 1st HS: 17.10  2nd HS: 05.12 20.02  begin SS: 17.04

4020165170 Neutrinos in particle physics and astrophysics  VVZ 

Mon 13-15
weekly nV or digital (0) Walter Winter
UE 14-day Jonas Heinze

Digital- & Präsenz-basierter Kurs

classroom language
Basic principles of neutrino physics and neutrino/cosmic ray astrophysics with connection to current research
The lecture/tutorials will be presumably in English
Astroparticle physics (desirable), theoretical introduction to the Standard Model (recommended, possibly in parallel)
structure / topics / contents
Neutrino physics (overview)
Neutrino oscillations
Solar neutrinos, MSW effect
Neutrino masses and mixings
Neutrinos meet the Standard Model
Neutrino geophysics
Multi-messenger astroparticle physics
Radiation models for astrophysical sources
Hadronic interactions in astrophysical sources
assigned modules
amount, credit points; Exam / major course assessment
3 SWS, 6 SP/ECTS (Arbeitsanteil im Modul für diese Lehrveranstaltung, nicht verbindlich)
Oral examination, participation in tutorials, reading assigments
Montags ab 13:15 Uhr, DESY Zeuthen, SR 1
Walter Winter
Carlo Giunti and Chung Kim. Fundamental of neutrino physics and astrophysics. Oxford
Martin Pohl. Einführung in die Hochenergieastrophysik. Shaker
Royal Swedish Academy of Science. The Nobel prize in physics 2015. Scientific background: neutrino oscillations.
Tom Gaisser. Cosmic rays and particle physics. Cambridge
Malcolm Longair. High-energy astrophysics, vol. 1 (particles, photons and their detection). Cambridge
Walter Winter. Neutrinos from Cosmic Accelerators including Magnetic Field and Flavor Effects. Hindawi
quod vide:
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