Add to ORKGWe use QCD sum rules to determine the difference between moments of the non-singlet structure functions. This combination decouples from the singular behaviour of the structure functions near x=1 as calculated in the quark-gluon basis and thus should lead to improved sum rule predictions. However, we find there are still very large errors due to higher order corrections. In order to refine the error analysis, we study the effect of renormalon ambiguities on our QCD sum rules results
We calculate non-singlet quark operator matrix elements of deep-inelastic scattering in the chiral l...
To look into the range of validity of the QCD sum rules, we investigate an extension of the QCD sum ...
In these lectures, I describe basic techniques of the QCD sum rule approach. The basic concepts of t...
We use QCD sum rules to determine the difference between moments of the non-singlet structure functi...
We re-examine the estimates of the higher twist contributions to the integral of $g_1$, the polarise...
In this paper we study QCD and power corrections to sum rules which show up in deep-inelastic lepton...
We use QCD sum rules to compute the matrix elements of the ΔB=2 operators appearing in the heavy-qua...
In the paper, we analyze the properties of Gross-Llewellyn Smith (GLS) sum rule by using the O(αs4)-...
The shape of hadronic distribution amplitudes (DAs) is a critical issue for the perturbative QCD of ...
In this talk I report on a recent sum rule calculation of the bag parameter for B Bbar mixing. We sh...
We study the difference between the higher order analytic perturbation theory (APT) and the standard...
We review the recent attempts to calculate the nuclear symmetry energy from QCD sum rules. Calculati...
We study the work of Leinweber by applying the Continuum Model of QCD Sum Rules (QCDSR) to the analy...
SIGLEAlso published in Phys. Lett., B (22 Sep 1988) v. 212(2) p. 245-250 / FIZ - Fachinformationszze...
We present a new calculation of the first Gegenbauer moment $a_1^K$ of the kaon light-cone distribut...
We calculate non-singlet quark operator matrix elements of deep-inelastic scattering in the chiral l...
To look into the range of validity of the QCD sum rules, we investigate an extension of the QCD sum ...
In these lectures, I describe basic techniques of the QCD sum rule approach. The basic concepts of t...
We use QCD sum rules to determine the difference between moments of the non-singlet structure functi...
We re-examine the estimates of the higher twist contributions to the integral of $g_1$, the polarise...
In this paper we study QCD and power corrections to sum rules which show up in deep-inelastic lepton...
We use QCD sum rules to compute the matrix elements of the ΔB=2 operators appearing in the heavy-qua...
In the paper, we analyze the properties of Gross-Llewellyn Smith (GLS) sum rule by using the O(αs4)-...
The shape of hadronic distribution amplitudes (DAs) is a critical issue for the perturbative QCD of ...
In this talk I report on a recent sum rule calculation of the bag parameter for B Bbar mixing. We sh...
We study the difference between the higher order analytic perturbation theory (APT) and the standard...
We review the recent attempts to calculate the nuclear symmetry energy from QCD sum rules. Calculati...
We study the work of Leinweber by applying the Continuum Model of QCD Sum Rules (QCDSR) to the analy...
SIGLEAlso published in Phys. Lett., B (22 Sep 1988) v. 212(2) p. 245-250 / FIZ - Fachinformationszze...
We present a new calculation of the first Gegenbauer moment $a_1^K$ of the kaon light-cone distribut...
We calculate non-singlet quark operator matrix elements of deep-inelastic scattering in the chiral l...
To look into the range of validity of the QCD sum rules, we investigate an extension of the QCD sum ...
In these lectures, I describe basic techniques of the QCD sum rule approach. The basic concepts of t...