Phiala Elisabeth Shanahan Shanahan Strangeness and Charge Symmetry Violation in Nucleon Structure

Strangeness and Charge Symmetry Violation in Nucleon Structure

von Phiala Elisabeth Shanahan

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Beschreibung

This thesis discusses two key topics: strangeness and charge symmetry violation (CSV) in the nucleon. It also provides a pedagogical introduction to chiral effective field theory tailored to the high-precision era of lattice quantum chromodynamics (QCD). Because the nucleon has zero net strangeness, strange observables give tremendous insight into the nature of the vacuum; they can only arise through quantum fluctuations in which strange–antistrange quark pairs are generated. As a result, the precise values of these quantities within QCD are important in physics arenas as diverse as precision tests of QCD, searches for physics beyond the Standard Model, and the interpretation of dark matter direct-detection experiments. Similarly, the precise knowledge of CSV observables has, with increasing experimental precision, become essential to the interpretation of many searches for physics beyond the Standard Model. In this thesis, the numerical lattice gauge theory approach to QCD is combinedwith the chiral perturbation theory formalism to determine strange and CSV quantities in a diverse range of observables including the octet baryon masses, sigma terms, electromagnetic form factors, and parton distribution functions. This thesis builds a comprehensive and coherent picture of the current status of understanding of strangeness and charge symmetry violation in the nucleon.
This thesis discusses two key topics: strangeness and charge symmetry violation (CSV) in the nucleon. It also provides a pedagogical introduction to chiral effective field theory tailored to the high-precision era of lattice quantum chromodynamics (QCD). Because the nucleon has zero net strangeness, strange observables give tremendous insight into the nature of the vacuum; they can only arise through quantum fluctuations in which strange–antistrange quark pairs are generated. As a result, the precise values of these quantities within QCD are important in physics arenas as diverse as precision tests of QCD, searches for physics beyond the Standard Model, and the interpretation of dark matter direct-detection experiments. Similarly, the precise knowledge of CSV observables has, with increasing experimental precision, become essential to the interpretation of many searches for physics beyond the Standard Model. In this thesis, the numerical lattice gauge theory approach to QCD is combined with the chiral perturbation theory formalism to determine strange and CSV quantities in a diverse range of observables including the octet baryon masses, sigma terms, electromagnetic form factors, and parton distribution functions. This thesis builds a comprehensive and coherent picture of the current status of understanding of strangeness and charge symmetry violation in the nucleon.

as an outstanding Ph.D. thesis by the University of Adelaide, Australia a pedagogical introduction to chiral effective field theory tailored to the high-precision era of lattice quantum chromodynamics (QCD) Presents a comprehensive description of our current understanding of strangeness and charge symmetry violation in nucleon observables as determined by lattice QCD Includes supplementary material: sn.pub/extras

Autor*in

Phiala Elisabeth Shanahan

Themen in »Strangeness and Charge Symmetry Violation in Nucleon Structure«

Charge Symmetry Violation Nucleon Strangeness Electromagnetic Form Factors Chiral Perturbation Theory Lattice QCD Chiral Effective Field Theory Parton Distribution Functions Baryon Sigma Terms Octet Baryon Masses

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Details

ISBN: 9783319314372
Verlag: Springer International Publishing
Erscheinung: 27.05.2016

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