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Thermodynamics of Low-dimensional Light Front Gauge Theories

Stefan Strauß

ISBN 978-3-8325-2397-8
126 pages, year of publication: 2010
price: 38.00 €
Thermodynamics of Low-dimensional Light Front Gauge Theories
In this thesis a consistent non-perturbative application of light cone quantization for the thermodynamics of strongly coupled quantum field theories is presented. Non-perturbative methods are mandatory for a description of physical systems under extreme conditions such as the fire ball occurring during heavy ion collisions or the plasma of the early universe.

Using the general light cone frame, it is shown that thermodynamic properties can be meaningfully determined in the framework of light cone quantized Hamiltonian field theory. This work focuses on Quantum Electrodynamics (QED1+1/massive Schwinger model) and Quantum Chromodynamics in 1 + 1 dimensions to compute thermodynamic observables in an ab initio approach. The central quantity is the partition function Z used to derive all other observables, e.g. the equation of state, by standard relations.

Due to the increased numerical effort and new solution algorithms the accuracy on low lying bound state masses of the massive Schwinger model could be improved by almost two orders of magnitude compared to previous light cone calculations. Finally, a possible application of the density matrix renormalization group to the massive Schwinger model has been explored.

Keywords:
  • theoretische Physik
  • Elementarteilchenphysik
  • Lichtkegelquantisierung
  • thermale Feldtheorie

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