Hadron formation in deep-inelastic positron scattering in a nuclear environment

Airapetian, A; Akopov, N; Akopov, Z; Akushevich, I; Amarian, M; Arrington, J; Aschenauer, Ec; Avakian, H; Avakian, R; Avetissia, A; Avetissian, E; Bailey, P; Bains, B; Baumgarten, C; Beckmann, M; Belostotski, S; Bernreuther, S; Bianchi, N; Bottcher, H; Borissov, A; Bouwhuis, M; Brack, J; Brauksiepe, S; Braun, B; Bruckner, W; Brull, A; Budz, P; Bulten, Hj; Capitani, Gp; Carter, P; Chumney, P; Cisbani, E; Court, Gr; Dalpiaz, Pf; DE LEO, Raffaele; De Nardo, L; De Sanctis, E; De Schepper, D; Devitsin, E; Pkad, Huberts; Di Nezza, P; Djordjadze, V; Duren, M; Dvoredsky, A; Elbakian, G; Ely, J; Fantoni, A; Fechtchenko, A; Felawka, L; Ferro Luzzi, M; Fiedler, K; Filippone, Bw; Fischer, H; Fox, B; Franz, J; Frullani, S; Garber, Y; Garibaldi, F; Garutti, E; Gavrilov, G; Gharibyan, V; Golendukhin, A; Graw, G; Grebeniouk, O; Green, Pw; Greeniaus, Lg; Gute, A; Haeberli, W; Hartig, M; Hasch, D; Heesbeen, D; Heinsius, Fh; Henoch, M; Hertenberger, R; Wha, Hesselink; Hofman, G; Holler, Y; Holt, Rj; Hommez, B; Iarygin, G; Iodice, M; Izotov, A; Jackson, He; Jgoun, A; Jung, P; Kaiser, R; Kanesaka, J; Kinney, E; Kisselev, A; Kitching, P; Kobayashi, H; Koch, N; Konigsmann, K; Kolster, H; Korotkov, V; Kotik, E; Kozlov, V; Krivokhijine, Vg; Kyle, G; Lagamba, L; Laziev, A; Lenisa, P; Lindemann, T; Lorenzon, W; Ncr, Makins; Martin, Jw; Marukyan, H; Masoli, F; Mcandrew, M; Mcilhany, K; Mckeown, Rd; Meissner, F; Menden, F; Metz, A; Meyners, N; Mikloukho, O; Miller, Ca; Milner, R; Muccifora, V; Mussa, R; Nagaitsev, A; Nappi, E; Naryshkin, Y; Nass, A; Negodaeva, K; Nowak, Wd; Oganessyan, K; O'Neill, Tg; Openshaw, R; Ouyang, J; Owen, Br; Pate, Sf; Potashov, S; Potterveld, Dh; Rakness, G; Rappoport, V; Redwine, R; Reggiani, D; Reolon, Ar; Ristinen, R; Rith, K; Robinson, D; Rostonivan, A; Ruh, M; Ryckbosch, D; Sakemi, Y; Sato, T; Savin, I; Scarlett, C; Schafer, A; Schill, C; Schmidt, F; Schnell, G; Schuler, Kp; Sebwind, A; Seibert, J; Seitz, J; Shibata, Ta; Shin, T; Shutov, V; Simani, Mc; Simon, A; Sinram, K; Steffens, E; Jjm, Steijger; Stewart, J; Stosslein, U; Suetsugu, K; Sutter, M; Taroian, S; Terkulov, A; Tessarin, S; Thomas, E; Tipton, B; Tytgat, M; Urciuoli, G; van den Brand JFJ,; van der Steenhoven, G; van de Vyver, R; van Hunen JJ,; Vetterli, Mc; Vikhrov, V; Vincter, Mg; Visser, J; Volk, E; Weiskopf, C; Wendland, J; Wilbert, J; Wise, T; Yen, S; Yoneyama, S; Zohrabian, H.

doi:10.1007/s100520100697

The influence of the nuclear medium on the production of charged hadrons in semi-inclusive deep-inelastic scattering has been studied by the HERMES experiment at DESY using a 27.5 GeV positron beam. The differential multiplicity of charged hadrons and identified charged pions from nitrogen relative to that from deuterium has been measured as a function of the virtual photon energy nu and the fraction z of this energy transferred to the hadron. There are observed substantial reductions of the multiplicity ratio R-M(h) at low nu and at high z, both of which are well described by a gluon-bremsstrahlung model of hadronization. A significant difference of the nu -dependence of R-M(h) is found between positive and negative A hadrons. This is interpreted in terms of a difference between the formation times of protons and pions, using a phenomenological model to describe the nu- and z-dependence of R-M(h).