Static-light-light baryons : a spectroscopic study using distillation
Citation:
Finnian Mc Elroy, 'Static-light-light baryons : a spectroscopic study using distillation', [thesis], Trinity College (Dublin, Ireland). School of Mathematics, 2013, pp 120Download Item:
Abstract:
Over the last decade, hadron spectroscopy in lattice QCD has graduated from calculating single rows of the quark propagation matrix to calculating all elements of the quark propagation matrix - the so-called all-to-all propagator. On a spatially symmetric anisotropic lattice of spatial extent and temporal extent Nx the quark propagation matrix has rank 4 x 3 x N3x x Nt, where 4 represents the number of components in a Dirac field and 3 represents the number of colours. Calculating all elements of this matrix requires 144 x N6x x N2t matrix inversions - a formidable task. The relatively new method of distillation enables access to all elements of the quark propagation matrix at a much more affordable cost.
Author: Mc Elroy, Finnian
Advisor:
Ryan, SineadQualification name:
Doctor of Philosophy (Ph.D.)Publisher:
Trinity College (Dublin, Ireland). School of MathematicsNote:
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Mathematics, Ph.D., Ph.D. Trinity College DublinMetadata
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