- Arrington, J;
- Bane, J;
- Daniel, A;
- Fomin, N;
- Gaskell, D;
- Seely, J;
- Asaturyan, R;
- Benmokhtar, F;
- Boeglin, W;
- Bosted, P;
- Bukhari, MHS;
- Christy, ME;
- Connell, S;
- Dalton, MM;
- Day, D;
- Dunne, J;
- Dutta, D;
- Fassi, L El;
- Ent, R;
- Fenker, H;
- Gao, H;
- Holt, RJ;
- Horn, T;
- Hungerford, E;
- Jones, MK;
- Jourdan, J;
- Kalantarians, N;
- Keppel, CE;
- Kiselev, D;
- Lung, AF;
- Malace, S;
- Meekins, DG;
- Mertens, T;
- Mkrtchyan, H;
- Niculescu, G;
- Niculescu, I;
- Potterveld, DH;
- Perdrisat, C;
- Punjabi, V;
- Qian, X;
- Reimer, PE;
- Roche, J;
- Rodriguez, VM;
- Rondon, O;
- Schulte, E;
- Slifer, K;
- Smith, GR;
- Solvignon, P;
- Tadevosyan, V;
- Tang, L;
- Testa, G;
- Trojer, R;
- Tvaskis, V;
- Wesselmann, FR;
- Wood, SA;
- Yuan, L;
- Zheng, X
Inclusive electron scattering from nuclear targets has been measured to extract the nuclear dependence of the inelastic cross section (σA) in Hall C at the Thomas Jefferson National Accelerator facility. Results are presented for H2, He3, He4, B9, C12, Cu63, and Au197 at an incident electron beam energy of 5.77 GeV for a range of momentum transfer from Q2 = 2 to 7 (GeV/c)2. These data improve the precision of the existing measurements of the EMC effect in the nuclear targets at large x and allow for more detailed examinations of the A dependence of the EMC effect.
