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The Standard Model and Beyond

Lead Research Organisation: University of Edinburgh
Department Name: Sch of Physics and Astronomy

Abstract

Currently, our understanding of Nature at the most fundamental level is at the crossroads. This year, the LHC at CERN will collide protons at higher energies than ever before, sufficient to explore physics in depth at the TeV scale. Nobody yet knows what these data will reveal. However, there are very good reasons to believe that something fundamentally new will be discovered, which might transform our understanding of basic physics, making the next few years the most exciting time for a generation or more. The discoveries could be new types of particle, such as the Higgs boson, new kinds of symmetries such as supersymmetry, or indeed something even more dramatic such as extra dimensions. Our rolling programme of research in Particle Physics Theory at the University of Edinburgh is designed to be at the forefront of these new discoveries: indeed Peter Higgs himself is Emeritus Professor here. Specifically, we provide theoretical calculations, using pen and paper, and the most powerful supercomputers, of both the huge number of background processes to be seen at LHC due to known physics, and the tiny signals expected in various models of new physics, in order to discriminate between signal and background, and thus maximise the discovery potential of the LHC. In parallel, we will attempt to understand the more complete picture of all the forces of Nature that should begin to emerge, in our ultimate quest for a Theory of Everything.

Publications

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Gardi E (2013) The non-Abelian exponentiation theorem for multiple Wilson lines in Journal of High Energy Physics

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Hiller G (2014) (A)symmetries of weak decays at and near the kinematic endpoint in Journal of High Energy Physics

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Aminov G (2015) Seiberg-Witten curves and double-elliptic integrable systems in Journal of High Energy Physics

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Figueroa-O'Farrill J (2014) The homogeneity theorem for supergravity backgrounds II: the six-dimensional theories in Journal of High Energy Physics

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Blossier B (2010) HQET at order 1/m: III. Decay constants in the quenched approximation in Journal of High Energy Physics

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Andersen J (2010) Constructing all-order corrections to multi-jet rates in Journal of High Energy Physics

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Sämann C (2015) Bootstrapping fuzzy scalar field theory in Journal of High Energy Physics

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Prochazka V (2016) N = 1 $$ \mathcal{N}=1 $$ Euler anomaly flow from dilaton effective action in Journal of High Energy Physics

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Bagchi A (2009) Galilean conformal algebras and AdS/CFT in Journal of High Energy Physics

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Fischer A (2009) Duality covariant quantum field theory on noncommutative Minkowski space in Journal of High Energy Physics

 
Description Lots of interesting Particle Physics
Exploitation Route Lots of ways
Sectors Digital/Communication/Information Technologies (including Software)

Education