TY - BOOK ID - 32941250 TI - Electromagnetic Form Factors of Charmed Baryons in Lattice QCD PY - 2018 SN - 9811089957 9811089949 PB - Singapore : Springer Singapore : Imprint: Springer, DB - UniCat KW - Quantum chromodynamics. KW - Baryons. KW - Lattice theory. KW - Physics. KW - Quantum field theory. KW - String theory. KW - Nuclear physics. KW - Heavy ions. KW - Hadrons. KW - Elementary particles (Physics). KW - Particle acceleration. KW - Nuclear Physics, Heavy Ions, Hadrons. KW - Elementary Particles, Quantum Field Theory. KW - Quantum Field Theories, String Theory. KW - Numerical and Computational Physics, Simulation. KW - Particle Acceleration and Detection, Beam Physics. KW - Chromodynamics, Quantum KW - QCD (Nuclear physics) KW - Particles (Nuclear physics) KW - Quantum electrodynamics KW - Lattices (Mathematics) KW - Space lattice (Mathematics) KW - Structural analysis (Mathematics) KW - Algebra, Abstract KW - Algebra, Boolean KW - Group theory KW - Set theory KW - Topology KW - Transformations (Mathematics) KW - Crystallography, Mathematical KW - Fermions KW - Hadrons KW - Heavy particles (Nuclear physics) KW - Quantum theory. KW - Acceleration (Mechanics) KW - Nuclear physics KW - Quantum dynamics KW - Quantum mechanics KW - Quantum physics KW - Physics KW - Mechanics KW - Thermodynamics KW - Atomic nuclei KW - Atoms, Nuclei of KW - Nucleus of the atom KW - Acceleration KW - Natural philosophy KW - Philosophy, Natural KW - Physical sciences KW - Dynamics KW - Models, String KW - String theory KW - Nuclear reactions KW - Relativistic quantum field theory KW - Field theory (Physics) KW - Quantum theory KW - Relativity (Physics) KW - Elementary particles (Physics) KW - High energy physics KW - Nuclear particles KW - Nucleons KW - Ions UR - https://www.unicat.be/uniCat?func=search&query=sysid:32941250 AB - 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. ER -