Nordita Winter School on Theoretical Particle Physics
7-16 January 2015
AlbaNova, Stockholm


Wed, Jan 7
AlbaNova FA32
Thu, Jan 8
AlbaNova FB53
Fri, Jan 9
AlbaNova FR42
Sat, Jan 10
AlbaNova FB53
Sun, Jan 11
AlbaNova FB53
9:30-10:30 Raidal I Harmark III Thorlacius III Di Vecchia I
10:30-11:30 Raidal II Harmark IV Thorlacius IV Di Vecchia II
11:30-11:50 Coffee Coffee Coffee Coffee
11:50-12:50 Harmark I Raidal III Zarembo I Free Koivisto I
12:50-14:00 Lunch Lunch Lunch day Lunch
14:00-15:00 Harmark II Raidal IV Zarembo II Koivisto II
15:10-16:10 Thorlacius I Thorlacius II Zarembo III Zarembo IV
16:20-17:00 Questions Questions Questions Questions
Mon, Jan 12
AlbaNova FB51
Tue, Jan 13
AlbaNova FB42
Wed, Jan 14
AlbaNova FB42
Thu, Jan 15
AlbaNova FB51
Fri, Jan 16
AlbaNova FE21
9:30-10:30 Koivisto III Schwetz I Johansson III Minahan I Frandsen III
10:30-11:00 Coffee Coffee Coffee Coffee Coffee
11:00-12:00 Di Vecchia III Johansson I Schwetz III Frandsen I Minahan III
12:00-13:15 Lunch Lunch Lunch Lunch Lunch
13:15-14:15 Koivisto IV Schwetz II Johansson IV Minahan II Frandsen IV
14:30-15:30 Di Vecchia IV Johansson II Schwetz IV Frandsen II Minahan IV
15:30-16:00 Questions Questions Questions Questions Questions

Wed, Jan 7, 8:30-9:30: Registration.

Fri, Jan 9, 18:30: Dinner at restaurant "Entré" in AlbaNova.


Paolo Di Vecchia (Nordita): Introduction to String Theory Lecture Notes
Mads Frandsen (CP3-Origins): Dark Matter and the Origin of Mass
Troels Harmark (Niels Bohr Institute): Black Holes Lecture Notes
Henrik Johansson (Uppsala/Nordita): Scattering Amplitudes in Gravity and Gauge Theory Lecture Notes
Tomi Koivisto (Nordita): Cosmology Lecture Notes
Joseph Minahan (Uppsala): Localization and matrix models in various dimensions
Martti Raidal (Tallinn): Direct and indirect tests of Dark Matter Slides-pt1 Slides-pt2
Thomas Schwetz (Stockholm): Neutrino Physics Slides-pt1 Slides-pt2 Slides-pt3 Slides-pt4
Lárus Thorlacius (Reykjavik/Stockholm): Quantum Field Theory in Curved Space-Time
Konstantin Zarembo (Nordita): Introduction to AdS/CFT Correspondence Lecture Notes