Your search keyword '"C. Tarantino"' showing total 3 results

1. Non-perturbative renormalization constants and light quark masses

Author

Becirevic, D., Gimenez, V., Lubicz, V., Martinelli, G., Papinutto, M., Reyes, J., Collaboration], C. Tarantino [SPQcdR, Becirevic, D., Gimenez, V., Lubicz, V., Martinelli, G., Papinutto, M., Reyes, J., and Collaboration], C. Tarantino [SPQcdR

Abstract

We present the results of an extensive non-perturbative calculation of the renormalization constants of bilinear quark operators for the non-perturbatively O(a)-improved Wilson action. The results are obtained at four values of the lattice coupling, by using the RI/MOM and the Ward identities methods. A new non-perturbative renormalization technique, which is based on the study of the lattice correlation functions at short distance in x-space, is also numerically investigated. We then use our non-perturbative determination of the quark mass renormalization constants to compute the values of the strange and the average up/down quark masses. After performing an extrapolation to the continuum limit, we obtain ms^msbar(2 GeV) = (106 +- 2 +- 8) MeV and ml^msbar(2 GeV)=(4.4 +- 0.1 +- 0.4) MeV., Comment: 4 pages, Lattice2002(improve)

Published

2002

2. Non-perturbative renormalization constants and light quark masses

Author

Becirevic, D., Gimenez, V., Lubicz, V., Martinelli, G., Papinutto, M., Reyes, J., Collaboration], C. Tarantino [SPQcdR, Becirevic, D., Gimenez, V., Lubicz, V., Martinelli, G., Papinutto, M., Reyes, J., and Collaboration], C. Tarantino [SPQcdR

Abstract

We present the results of an extensive non-perturbative calculation of the renormalization constants of bilinear quark operators for the non-perturbatively O(a)-improved Wilson action. The results are obtained at four values of the lattice coupling, by using the RI/MOM and the Ward identities methods. A new non-perturbative renormalization technique, which is based on the study of the lattice correlation functions at short distance in x-space, is also numerically investigated. We then use our non-perturbative determination of the quark mass renormalization constants to compute the values of the strange and the average up/down quark masses. After performing an extrapolation to the continuum limit, we obtain ms^msbar(2 GeV) = (106 +- 2 +- 8) MeV and ml^msbar(2 GeV)=(4.4 +- 0.1 +- 0.4) MeV., Comment: 4 pages, Lattice2002(improve)

Published

2002

3. Non-perturbative renormalization constants and light quark masses

Author

Becirevic, D., Gimenez, V., Lubicz, V., Martinelli, G., Papinutto, M., Reyes, J., Collaboration], C. Tarantino [SPQcdR, Becirevic, D., Gimenez, V., Lubicz, V., Martinelli, G., Papinutto, M., Reyes, J., and Collaboration], C. Tarantino [SPQcdR

Abstract

We present the results of an extensive non-perturbative calculation of the renormalization constants of bilinear quark operators for the non-perturbatively O(a)-improved Wilson action. The results are obtained at four values of the lattice coupling, by using the RI/MOM and the Ward identities methods. A new non-perturbative renormalization technique, which is based on the study of the lattice correlation functions at short distance in x-space, is also numerically investigated. We then use our non-perturbative determination of the quark mass renormalization constants to compute the values of the strange and the average up/down quark masses. After performing an extrapolation to the continuum limit, we obtain ms^msbar(2 GeV) = (106 +- 2 +- 8) MeV and ml^msbar(2 GeV)=(4.4 +- 0.1 +- 0.4) MeV., Comment: 4 pages, Lattice2002(improve)

Published

2002