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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Format results
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Experimental plasma physics
Stanford University - Department of Physics -
Local group simulations of galaxy formation with blazar heating
Durham University -
TeV emission from blazars: physical models meet observations
Universität Heidelberg -
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Nonlinear beam plasma simulations
Perimeter Institute for Theoretical Physics -
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The Fermi view of the (hard) blazar population
Clemson University -
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Implications of TeV emission of quasars
University of Maryland, College Park -
Magnetic fields in the early universe and beam-plasma instabilities
Ruhr-Universität Bochum -
