Lattice phenomenology of minimal walking technicolor
dc.contributor.advisor
Del Debbio, Luigi
en
dc.contributor.advisor
Pendelton, Brian
en
dc.contributor.author
Kerrane, Eoin
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dc.date.accessioned
2012-07-24T15:14:52Z
dc.date.available
2012-07-24T15:14:52Z
dc.date.issued
2012-06-22
dc.description.abstract
As results from the Large Hadron Collider (LHC) begin to shed light on the
physics of the electroweak scale, which has been of primary interest to theorists
for many years, we have entered a phase where critical judgement of the many
models of electroweak symmetry breaking (EWSB) that have been developed in
recent years will be possible.
As this process continues, those models which are not additionally constrained
by emerging data attract increased scrutiny and interest. In this respect,
technicolor models, in which EWSB occurs dynamically through the spontaneous
chiral symmetry breaking in a new strongly coupled sector, are the subject of
growing research activity.
The focus of this work is a program of investigation of Minimal Walking
Technicolor (MWT), a candidate theory for the new strongly coupled sector of a
model of dynamical EWSB using Lattice Gauge Theory (LGT) techniques.
We have performed an improved comprehensive study of mesonic spectral
observables within MWT, with emphasis on nite volume e ects arising from
nite temporal and spatial boundaries. Our results clarify the role of nite
volume e ects in such studies, while con rming the near-conformal behaviour
of the theory in the infra-red, and indicating a relatively small value of the mass
anomalous dimension, in agreement with other studies.
We also describe a calculation of the leading order hadronic vacuum polarisation
contribution to the anomalous magnetic moment of the muon from a lattice
simulation of 2+1
avour lattice QCD using Domain Wall Fermions (DWF).
We investigate in detail a number of systematic uncertainties involved in this
calculation, determining how to e ectively bring them under control, and obtain
a result in close agreement with previous determinations from LGT studies, from
calculations based on independent experimental data, and from experimental measurements.
We present a preliminary calculation of the contribution to the electroweak
S parameter from MWT, using a mixed-action simulation involving the DWF
action used for the valence sector combined with gauge con gurations generated
using the Wilson fermion action for sea quarks.
en
dc.identifier.uri
http://hdl.handle.net/1842/6186
dc.language.iso
en
dc.publisher
The University of Edinburgh
en
dc.relation.hasversion
Luigi Del Debbio, Eoin Kerrane, and Rodolfo Russo. Mass corrections in string theory and lattice eld theory. Phys. Rev., D80:025003, 2009, 0812.3129.
en
dc.relation.hasversion
Eoin Kerrane et al. Improved Spectroscopy of Minimal Walking Technicolor. PoS, LATTICE2010:058, 2010, 1011.0607.
en
dc.relation.hasversion
Francis Bursa, Luigi Del Debbio, David Henty, Eoin Kerrane, Biagio Lucini, et al. Improved Lattice Spectroscopy of Minimal Walking Technicolor. Phys.Rev., D84: 034506, 2011, 1104.4301.
en
dc.relation.hasversion
Peter Boyle, Luigi Del Debbio, Eoin Kerrane, and James Zanotti. Lattice Determination of the Hadronic Contribution to the Muon g - 2 using Dynamical Domain Wall Fermions. 2011, 1107.1497.
en
dc.subject
lattice
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dc.subject
technicolor
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dc.title
Lattice phenomenology of minimal walking technicolor
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dc.type
Thesis or Dissertation
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dc.type.qualificationlevel
Doctoral
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dc.type.qualificationname
PhD Doctor of Philosophy
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