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" Electromagnetic form factors of charmed baryons in lattice QCD / "
Kadir Utku Can.
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BL
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| Record Number
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889470
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| Main Entry
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Can, Kadir Utku
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| Title & Author
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Electromagnetic form factors of charmed baryons in lattice QCD /\ Kadir Utku Can.
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| Publication Statement
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Singapore :: Springer,, 2018.
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| Series Statement
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Springer theses,
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| Page. NO
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1 online resource (xii, 125 pages) :: illustrations (some color)
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| ISBN
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9789811089954
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: 9811089957
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9789811089947
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9811089949
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| Notes
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"Doctoral thesis accpeted by the Tokyo Institute of Technology, Tokyo, Japan."
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| Bibliographies/Indexes
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Includes bibliographical references.
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| Contents
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Intro; Supervisor's Foreword; Acknowledgements; Contents; Part I Introductory Review; 1 Introduction; 1.1 Mini Review of the Standard Model; 1.2 Strong Force and Hadrons; 1.3 Heavy-Flavored Hadrons; 1.4 Contents of the Toolbox; 1.5 Outline of the Thesis; References; 2 Quantum Chromodynamics; 2.1 Introduction; 2.2 Color Quantum Number; 2.3 Field Theory Formalism; 2.4 Hadron Structure; References; 3 Lattice Formulation of QCD; 3.1 Euclidean Action; 3.2 Discrete Space-Time; 3.3 Gauge Action; 3.3.1 Naive Discretisation; 3.3.2 Improved Action; 3.4 Fermion Action; 3.4.1 Naive Discretisation.
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3.4.2 Fermion Doubling3.4.3 Wilson Fermions; 3.4.4 Improved Action; 3.5 Workflow; References; Part II Formalism and Results; 4 Theoretical Formalism and Simulation Setup; 4.1 Theoretical Formalism; 4.1.1 Hadron Masses; 4.1.2 Form Factors; 4.1.3 Data Analysis; 4.2 Simulation Setup; 4.2.1 Gauge Configurations; 4.2.2 kc tuning; 4.2.3 Source Smearing; 4.2.4 Fixing the Sink; 4.2.5 Sink Smearing; 4.2.6 Statistical Improvements; References; 5 Results and Discussions; 5.1 Baryon Masses; 5.2 Evaluation of Form Factor Data; 5.2.1 Form Factor and Excited-State Analysis.
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5.2.2 Charge Radii and Magnetic Moments5.2.3 Quark Sectors; 5.3 Spin-1/2 Baryons; 5.3.1 Electric Properties; 5.3.2 Magnetic Properties; 5.4 Spin-3/2 Baryons; 5.4.1 Electric Properties; 5.4.2 Magnetic Properties; 5.5 Systematic Errors; 5.5.1 Excited-State Contamination; 5.5.2 Finite-Volume Effects; 5.5.3 Fitting Procedures; 5.5.4 Quark Action Related Uncertainties; References; Part III Concluding Remarks; 6 Summary, Conclusions and Prospects; 6.1 Summary and Conclusions; 6.2 Future Prospects; Curriculum Vitae.
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| Abstract
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This thesis presents the first lattice quantum chromodynamics (QCD) approach to the charmed baryon regime, building on the knowledge and experience gained with former lattice QCD applications to nucleon structure. The thesis provides valuable insights into the dynamics of yet unobserved charmed baryon systems. Most notably, it confirms that the expectations of model or effective field theoretical calculations of heavy-hadron systems hold qualitatively, while also demonstrating that they conflict with the quantitative results, pointing to a tension between these complementary approaches. Further, the book presents a cutting-edge approach to understanding the structure and dynamics of hadrons made of quarks and gluons using QCD, and successfully extends the approach to charmed hadrons. In particular, the thesis investigate a peculiar property of charmed hadrons whose dynamics, i.e., structure, deviates from their counterparts, e.g., those of protons and neutrons, by employing the lattice QCD approach --a state-of-the-art numerical method and the powerful ab initio, non-perturbative method.
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Baryons.
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Lattice theory.
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Quantum chromodynamics.
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Baryons.
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Lattice theory.
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Quantum chromodynamics.
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SCIENCE-- Physics-- Quantum Theory.
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| Dewey Classification
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539.7/548
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| LC Classification
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QC793.3.Q35
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