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Compactifying M-Theory on a G2 Manifold to Describe our World

Friday, April 1, 2016
12:00 AM
335 West Hall

Compactified M-theory generically describes many features of our world, including gravity; Yang-Mills forces like SU(3)xSU(2)xU(1); chiral fermions (so parity violation); softly broken supersymmetry; a solution to the  hierarchy problem; electroweak  symmetry breaking and Higgs physics (including  the ratio of the Higgs boson mass to  the Z mass, and Higgs decay branching ratios); grand unification; small EDMs; no flavor changing problems and more.  It predicts a non-thermal cosmological history and addresses the form(s) of dark matter and the ratio of matter to dark matter.  And it predicts the superpartner spectrum: heavy (tens of TeV) squarks and sleptons, light (~TeV) gluino and LSP. Superpartners should not have been found in Run I at LHC, and can be found in Run II (gluinos about 1..5 TeV, winos about 640 GeV). A few general assumptions are made, and there are no parameters to vary. There has been good progress in calculating and elucidating the predictions, but there is still much to do. I’ll present the theoretical foundations, and some predictions.

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