Add to ORKGRecent NMC data on the ratio of the deep inelastic structure functions F 2 per nucleon for deuterium relative to hydrogen are analysed in the context of the Gottfried sum rule. It is shown that the discrepancy between the Gottfried sum rule prediction and NMC data analysis may be interpreted as a nuclear effect in deuterium as it is suggested by several models. This fact, applied to nuclear-deuterium measured ratios, modifies the standard picture of nuclear effects.Facultad de Ciencias Exacta
Few-body systems offer a unique challenge to those interested in deep-inelastic scattering. Using th...
Nuclear effects in the spin-dependent structure function $g_1$ of the deuteron are studied in the ki...
We extract the ratio of the down (d) and up (u) parton distribution functions (PDF's) from the ratio...
We study nuclear effects in the deuteron in the deep inelastic regime using the newest available dat...
Ratios of structure functions are determined in measurements of deep inelastic muon scattering. The ...
We present a detailed study of nuclear corrections in the deuteron (D) from an analysis of data from...
We study nuclear effects in the deuteron in the deep inelastic regime using the newest available dat...
We determined the structure function ratio RdEMC=Fd2/(Fn2+Fp2) from recently published Fn2/Fd2 data ...
The nuclear effects in the spin-dependent structure function $g_1$ of the deuteron are studied in th...
Few-body systems offer a unique challenge to those interested in deep inelastic scattering. Using th...
We report the results of a new global QCD analysis, which includes deep-inelastic $e/\mu$ scattering...
We determined the structure function ratio R-EMC(d) = F-2(d)/(F-2(n) + F-2(p)) from recently publish...
We determined the structure function ratio R-EMC(d) = F-2(d)/(F-2(n) + F-2(p)) from recently publish...
We extract the ratio of the down (d) and up (u) parton distribution functions (PDF's) from the ratio...
Nuclear effects in the spin-dependent structure function g_1 of the deuteron are studied in the kine...
Few-body systems offer a unique challenge to those interested in deep-inelastic scattering. Using th...
Nuclear effects in the spin-dependent structure function $g_1$ of the deuteron are studied in the ki...
We extract the ratio of the down (d) and up (u) parton distribution functions (PDF's) from the ratio...
We study nuclear effects in the deuteron in the deep inelastic regime using the newest available dat...
Ratios of structure functions are determined in measurements of deep inelastic muon scattering. The ...
We present a detailed study of nuclear corrections in the deuteron (D) from an analysis of data from...
We study nuclear effects in the deuteron in the deep inelastic regime using the newest available dat...
We determined the structure function ratio RdEMC=Fd2/(Fn2+Fp2) from recently published Fn2/Fd2 data ...
The nuclear effects in the spin-dependent structure function $g_1$ of the deuteron are studied in th...
Few-body systems offer a unique challenge to those interested in deep inelastic scattering. Using th...
We report the results of a new global QCD analysis, which includes deep-inelastic $e/\mu$ scattering...
We determined the structure function ratio R-EMC(d) = F-2(d)/(F-2(n) + F-2(p)) from recently publish...
We determined the structure function ratio R-EMC(d) = F-2(d)/(F-2(n) + F-2(p)) from recently publish...
We extract the ratio of the down (d) and up (u) parton distribution functions (PDF's) from the ratio...
Nuclear effects in the spin-dependent structure function g_1 of the deuteron are studied in the kine...
Few-body systems offer a unique challenge to those interested in deep-inelastic scattering. Using th...
Nuclear effects in the spin-dependent structure function $g_1$ of the deuteron are studied in the ki...
We extract the ratio of the down (d) and up (u) parton distribution functions (PDF's) from the ratio...