Physics – High Energy Physics – High Energy Physics - Lattice
Scientific paper
2003-09-21
Physics
High Energy Physics
High Energy Physics - Lattice
PhD Thesis
Scientific paper
This thesis is concerned with two topics in Hamiltonian lattice gauge theory: improvement and the application of analytic techniques. On the topic of improvement, we develop a direct method for improving lattice Hamiltonians for gluons, in which linear combinations of gauge invariant lattice operators are chosen to cancel the lowest order discretisation errors. On the topic of analytic methods, we extend the techniques that have been used in 2+1 dimensional SU(2) variational calculations for many years, to the general case of SU(N). For this purpose a number of group integrals are calculated in terms of Toeplitz determinants. As generating functions these group integrals allow the calculation of all matrix elements appearing in variational glueball mass calculations in 2+1 dimensions. Making use of these analytic techniques, glueball masses in various symmetry sectors are calculated with N as large as 25 allowing extrapolations to infinite N to be performed. We finish with a feasibility study of applying analytic Hamiltonian techniques in 3+1 dimensional calculations.
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