Cosmologists at Perimeter Institute seek to help pin down the constituents and history of our universe, and the rules governing its origin and evolution. Many of the most interesting clues about physics beyond the standard model (e.g., dark matter, dark energy, the matter/anti-matter asymmetry, and the spectrum of primordial density perturbations], come from cosmological observations, and cosmological observations are often the best way to test or constrain a proposed modification of the laws of nature, since such observations can probe length scales, time scales, and energy scales that are beyond the reach of terrestrial laboratories.
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Ben-Gurion University of the Negev
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Neutrinos - The x-files of physics
Technische Universität Dresden -
What does the CMB really tell us about inflation?
State University of New York (SUNY) -
Mapping the polarized sky with WMAP: Methods and new cosmological insights
National Aeronautics and Space Administration -
LHC Olympics at CERN
Massachusetts Institute of Technology (MIT) -
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High-energy neutrino astronomy: Towards kilometer-scale neutrino observatories
University of Wisconsin–Madison -
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MOND habitats within the solar system
Imperial College London -
Heavy Light: TeV gamma ray astrophysics
Canadian Association of Physicists (CAP) -
Why did the universe start from a low entropy state
University of North Carolina at Chapel Hill -
Inflationary cosmology as a probe of primordial quantum mechanics
Clemson University