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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General Relativity for Cosmology - Lecture 2
Achim Kempf University of Waterloo
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Particle Theory from Jordan Geometry
Shane Farnsworth University of Regensburg
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The Standard Model from A Jordan Algebra
Latham Boyle University of Edinburgh
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SO(7,7) Structure of Standard Model Fermions
Kirill Krasnov University of Nottingham
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Exceptional Quantum Algebra for the Standard Model of Particle Physics
Ivan Todorov Bulgarian Academy of Sciences
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Swampland Constraints on Neutrino Masses and Dark Energy
Irene Valenzuela European Organization for Nuclear Research (CERN)
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Rethinking the origin of neutrino masses: the role of gravity
Lena Funcke University of Bonn
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On the possible role of nilpotent internal symmetries in unification
Andras Laszlo Wigner Research Center for Physics
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General Relativity for Cosmology - Lecture 1
Achim Kempf University of Waterloo
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