Theory and Phenomenology within and beyond the Standard Model
Lead Research Organisation:
University of Southampton
Department Name: Sch of Physics and Astronomy
Abstract
Over the next decade, experiments at the Large Hadron Collider will have a very major impact on particle physics. They will confirm or disprove the Higgs field as the underlying mechanism for the generation of mass and it is to be expected that there will be signatures of physics 'Beyond the Standard Model' of particle physics. The Standard Model has been remarkably (and frustratingly) successful and yet leaves many fundamental questions unanswered. This proposal is to support the research of the theoretical particle physicists at the University of Southampton. The main goal is to provide the theoretical ideas and techniques which will help our experimental colleagues discover the Higgs Boson and signatures of new physics, to influence the analyses which will be performed and to contribute to the theoretical interpretation of the experimental data. There are many aspects to this work and we now briefly review some of these and explain the Southampton group's role. The experimental discovery signatures of the Higgs Boson, and indeed of the particles present in theories beyond the standard model, depend on the masses of these particles and on the new theories. In Southampton we have expertise and experience in devising strategies for these searches and also in developing theories of new physics. We have close links to the UK experimenters working at the LHC (and at the Rutherford-Appleton Laboratory (RAL) inparticular) and will work closely with them in their analyses.Indeed, together with RAL, we have founded the NExT (New Experimental Theoretical Interactions) Institute with the close collaboration of theorists and experimenters as its main goal. The results from the analyses in turn will constrain the new theories, for example by confirming or disproving the idea of supersymmetry, and guide us in unravelling the next level of fundamental physics. These are remarkably exciting times! Of course, in order to be confident that we have observed a signal of new physics we have to be sure that what we are seeing is not simply a subtle effect of the standard model. Frequently, as a result of our limited ability to quantify the effects of the strong nuclear force, this is difficult to do. In Southampton we have outstanding expertise in quantum chromodynamics, QCD, the theory of these strong interactions. This includes a major research programme using state-of-the-art supercomputers to compute these effects for a wide variety of physical processes. A major component of our future programme is to expand and develop the activity of numerical simulations. It is likely that some (or perhaps all) new particles will be too heavy to be observed directly at the LHC. In that case their presence will have to be deduced indirectly, by observing deviations from Standard Model predictions for 'rare' processes. The programme of numerical simulations will be central in establishing these deviations as will the analytical techniques which we are using. An important aspect of standard model physics is to understand the phases of QCD at finite temperature and density; conditions present just after the big bang or in neutron stars and which are being recreated at experiments at the RHIC accelerator in the USA and at the LHC. An important objective of our research is to interpret the experimental ideas in terms of QCD, and in turn to use the results to understand the theory,
Organisations
Publications
Antusch S
(2010)
Quark mixing sum rules and the right unitarity triangle
in Physical Review D
King S
(2010)
Implications of large CP violation in B mixing for Supersymmetric Standard Models
in Journal of High Energy Physics
Antusch S
(2011)
Measurable neutrino mass scale in A 4 × S U ( 5 )
in Physical Review D
Di Bari P
(2011)
Radiative inflation and dark energy
in Physical Review D
Hall J
(2011)
Novel Higgs decays and dark matter in the exceptional supersymmetric standard model
in Physical Review D
Spinrath M.
(2011)
Right unitarity triangles and tri-bimaximal mixing from discrete symmetries and unification
in Proceedings of the 1st Workshop on Flavor Symmetries and Consequences in Accelerators and Cosmology, FLASY 2011
Hall J.P.
(2011)
Nonstandard higgs decays and dark matter in the E6SSM
in Proceedings of the 2011 Meeting of the Division of Particles and Fields of the American Physical Society, DPF 2011
Blum T
(2011)
K to p p decay amplitudes from lattice QCD
in Physical Review D
Sachrajda C
(2011)
Phenomenology from the lattice
King S
(2011)
A4 models of tri-bimaximal-reactor mixing
Lytle A.T.
(2011)
Non-perturbative renormalization for general improved staggered bilinears
in Proceedings of Science
Athron P.
(2011)
Collider phenomenology of the E6SSM
in Proceedings of the 2011 Meeting of the Division of Particles and Fields of the American Physical Society, DPF 2011
Ishikawa T
(2011)
One-loop operator matching in the static heavy and domain-wall light quark system with O(a) improvement
in Journal of High Energy Physics
Antusch S
(2011)
Right unitarity triangles and tri-bimaximal mixing from discrete symmetries and unification
in Nuclear Physics B
Rae T
(2011)
Parton Distribution Amplitudes
Sachrajda Christopher
(2011)
Phenomenology from the Lattice
in arXiv e-prints
Hall J
(2011)
Bino dark matter and big bang nucleosynthesis in the constrained E 6SSM with massless inert singlinos
in Journal of High Energy Physics
Aoki Y
(2011)
Continuum limit of B K from 2 + 1 flavor domain wall QCD
in Physical Review D
Colangelo G
(2011)
Review of lattice results concerning low-energy particle physics
in The European Physical Journal C
Athron P
(2011)
LHC signatures of the constrained exceptional supersymmetric standard model
in Physical Review D
King S
(2011)
Trimaximal neutrino mixing from vacuum alignment in A 4 and S 4 models
in Journal of High Energy Physics
Aoki Y
(2011)
Continuum limit physics from 2 + 1 flavor domain wall QCD
in Physical Review D
King S
(2011)
Vacuum misalignment corrections to tri-bimaximal mixing and form dominance
in Journal of High Energy Physics
Hall J
(2011)
Nonstandard Higgs Decays and Dark Matter in the E6SSM
Antusch, Stefan
(2011)
Right unitarity triangles and tri-bimaximal mixing from discrete symmetries and unification
Antusch S
(2011)
Leptogenesis in the two right-handed neutrino model revisited
Burrows T
(2011)
SUSY GUT of flavour in 8d
in Nuclear Physics B
Arthur R
(2011)
Lattice results for low moments of light meson distribution amplitudes
in Physical Review D
Di Bari P
(2012)
An introduction to leptogenesis and neutrino properties
Cooper I
(2012)
Renormalisation group improved leptogenesis in family symmetry models
in Nuclear Physics B
Blanchet S
(2012)
The minimal scenario of leptogenesis
in New Journal of Physics
Blum T
(2012)
K?(pp)(I=2) decay amplitude from lattice QCD.
in Physical review letters
Blanchet S
(2012)
The minimal scenario of leptogenesis
Sivalingam K
(2012)
Kaon semileptonic decays near the physical point
Sachrajda C.T.
(2012)
Non-leptonic and rare kaon decays in lattice QCD
in Proceedings of Science
Di Bari P
(2012)
An introduction to leptogenesis and neutrino properties
in Contemporary Physics
King S
(2012)
A 4 models of tri-bimaximal-reactor mixing
in Journal of High Energy Physics
Antusch S
(2012)
Leptogenesis in the two right-handed neutrino model revisited
in Physical Review D
Christ N
(2012)
Long distance contribution to the $K_L-K_S$ mass difference
Blum T
(2012)
Lattice determination of the K ? ( p p ) I = 2 decay amplitude A 2
in Physical Review D
Antusch S
(2012)
A fuller flavour treatment of N 2 -dominated leptogenesis
in Nuclear Physics B
Antusch S
(2012)
Trimaximal mixing with predicted ? 13 from a new type of constrained sequential dominance
in Nuclear Physics B
Description | No further information this grant finished in 2011 |
Exploitation Route | Already reported in 2014 |
Sectors | Education |