https://doi.org/10.1140/epja/i2011-11114-4
Regular Article - Theoretical Physics
A Bayesian analysis of the nucleon QCD sum rules
Department of Physics, H-27, Tokyo Institute of Technology, 152-8551, Meguro, Tokyo, Japan
* e-mail: ohtani.k@th.phys.titech.ac.jp
Received:
11
July
2011
Revised:
12
September
2011
Accepted:
13
September
2011
Published online:
28
September
2011
QCD sum rules of the nucleon channel are reanalyzed, using the maximum-entropy method (MEM). This new approach, based on the Bayesian probability theory, does not restrict the spectral function to the usual “pole + continuum” form, allowing a more flexible investigation of the nucleon spectral function. Making use of this flexibility, we are able to investigate the spectral functions of various interpolating fields, finding that the nucleon ground state mainly couples to an operator containing a scalar diquark. Moreover, we formulate the Gaussian sum rule for the nucleon channel and find that it is more suitable for the MEM analysis to extract the nucleon pole in the region of its experimental value, while the Borel sum rule does not contain enough information to clearly separate the nucleon pole from the continuum.
© SIF, Springer-Verlag Berlin Heidelberg, 2011