Lecture Program |
A. Cosmology and the Early Universe (8 lectures)
* Inflationary Cosmology and its Parameters (Michael Turner, Chicago) * Probes of Dark Energy (David Schlegel, LBNL) * The Cosmos and the LHC (John Ellis, CERN) * Laboratory Searches for Dark Matter (Leslie Rosenberg, U Washington) B. The End of the Dark Ages (4 lectures)
* Reionization: The First Stars and Galaxies (Tom Abel, Stanford) * Probing the Epoch of Reionization (Miguel Morales, U Washington) C. Cosmic Explosions, Compact Objects, and Nucleosynthesis (6 lectures)
* Core Collapse Supernovae (Tony Mezzacappa, ORNL) * Neutron Stars (James Lattimer, SUNY Stony Brook) * Nucleosynthesis: From the Big Bang to Today (George Fuller, UC San Diego) D. High Energy Astrophysics (4 lectures)
* Cosmic Rays in Large Air Shower Detectors (Tom Gaisser, Bartol and U. Delaware) * High Energy Neutrinos and IceCube (Francis Halzen, U Wisconsin) E. Gravity (4 lectures)
* Gravity: Waves and Holgraphy (Craig Hogan, FermiLab/Chicago) * Black Holes, Gravitational Waves, and Numerical Relativity (Joan Centrella, NASA Goddard) F. Neutrino Physics and Astrophysics (4 lectures)
* Neutrino Properties and Neutrino Astrophysics: (Wick Haxton, U Washington) * Detecting Solar, Atmospheric, and Terrestrial Neutrinos: What They Have and Will Tell Us (Hamish Robertson, U Washington) |