Add to ORKGWe study baryon and diquark correlation functions in the framework of an instanton model for the QCD vacuum. The model naturally accomodates a light scalar diquark. As a consequence, the correlation functions for the nucleon and delta are found to be qualitatively different. Using a complete set of all available correlation functions we determine masses and coupling constants for these particles. We compare our results with predictions from QCD sum rules and recent lattice measurement of point-to-point correlators
AbstractCorrelation functions provide information on the properties of mesons in vacuum and of hot n...
In this paper we study the work of Leinweber by applying the Continuum Model of QCD Sum Rules (QCDSR...
The field strength correlators at zero temperature are semi-classicallyevaluated fitting the random ...
Within a microscopic model for the non-perturbative vacuum of QCD, hadronic correlation functions ar...
This is the first of a series of papers devoted to a systematic study of QCD correlation functions i...
We study hadronic correlation functions in the interacting instanton liquid model, both at zero and ...
11 pages, 8 figuresWe evaluate baryon wave functions in both the Coulomb and Landau gauge in lattice...
Instanton calculations in QCD are plagued by infrared divergences, and in the past there has been mu...
We evaluate baryon wave functions in both the Coulomb and Landau gauge in lattice QCD. These are con...
We study the Sivers function for valence u and d quarks in the proton within the instanton model for...
We study the Sivers function for valence u and d quarks in the proton within the instanton model for...
In order to better understand the role played by instantons behind nonperturbative dynamics, we inve...
The electromagnetic tensor for inclusive electron scattering off the pion Wμν for momentum transfers...
We present first results for diquark correlation functions calculated in Landau gauge on the lattice...
Assuming the gluon field is well approximated by instanton configurations we derive a light quarks d...
AbstractCorrelation functions provide information on the properties of mesons in vacuum and of hot n...
In this paper we study the work of Leinweber by applying the Continuum Model of QCD Sum Rules (QCDSR...
The field strength correlators at zero temperature are semi-classicallyevaluated fitting the random ...
Within a microscopic model for the non-perturbative vacuum of QCD, hadronic correlation functions ar...
This is the first of a series of papers devoted to a systematic study of QCD correlation functions i...
We study hadronic correlation functions in the interacting instanton liquid model, both at zero and ...
11 pages, 8 figuresWe evaluate baryon wave functions in both the Coulomb and Landau gauge in lattice...
Instanton calculations in QCD are plagued by infrared divergences, and in the past there has been mu...
We evaluate baryon wave functions in both the Coulomb and Landau gauge in lattice QCD. These are con...
We study the Sivers function for valence u and d quarks in the proton within the instanton model for...
We study the Sivers function for valence u and d quarks in the proton within the instanton model for...
In order to better understand the role played by instantons behind nonperturbative dynamics, we inve...
The electromagnetic tensor for inclusive electron scattering off the pion Wμν for momentum transfers...
We present first results for diquark correlation functions calculated in Landau gauge on the lattice...
Assuming the gluon field is well approximated by instanton configurations we derive a light quarks d...
AbstractCorrelation functions provide information on the properties of mesons in vacuum and of hot n...
In this paper we study the work of Leinweber by applying the Continuum Model of QCD Sum Rules (QCDSR...
The field strength correlators at zero temperature are semi-classicallyevaluated fitting the random ...