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A series of semi-inclusive deep-inelastic scattering measurements on deuterium, helium, neon, krypton, and xenon targets has been performed in order to study hadronization. The data were collected with the HERMES detector at the DESY laboratory using a 27.6 GeV positron or electron beam. Hadron multiplicities on nucleus A relative to those on the deuteron, R_A^h, are presented for various hadrons (\pi^+, \pi^-, \pi^0, K^+, K^-, p, and \bar{p}) as a function of the virtual-photon energy \nu, the fraction z of this energy transferred to the hadron, the photon virtuality Q^2, and the hadron transverse momentum squared p_t^2. The data reveal a systematic decrease of R_A^h with the mass number A for each hadron type h. Furthermore, R_A^h increases (decreases) with increasing values of \nu (z), increases slightly with increasing Q^2, and is almost independent of p_t^2, except at large values of p_t^2. For pions two-dimensional distributions also are presented. These indicate that the dependences of R_A^{\pi} on \nu and z can largely be described as a dependence on a single variable L_c, which is a combination of \nu and z. The dependence on L_c suggests in which kinematic conditions partonic and hadronic mechanisms may be dominant. The behaviour of R_A^{\pi} at large p_t^2 constitutes tentative evidence for a partonic energy-loss mechanism. The A-dependence of R_A^h is investigated as a function of \nu, z, and of L_c. It approximately follows an A^{\alpha} form with \alpha \approx 0.5 - 0.6.
PI+ multiplicty ratio (Helium/Deuterium) as a function of NU.
K+ multiplicty ratio (Helium/Deuterium) as a function of NU.
P multiplicty ratio (Helium/Deuterium) as a function of NU.
PI+ multiplicty ratio (Helium/Deuterium) as a function of Z.
K+ multiplicty ratio (Helium/Deuterium) as a function of Z.
P multiplicty ratio (Helium/Deuterium) as a function of Z.
PI+ multiplicty ratio (Helium/Deuterium) as a function of Q**2.
K+ multiplicty ratio (Helium/Deuterium) as a function of Q**2.
P multiplicty ratio (Helium/Deuterium) as a function of Q**2.
PI+ multiplicty ratio (Neon/Deuterium) as a function of NU.
K+ multiplicty ratio (Neon/Deuterium) as a function of NU.
P multiplicty ratio (Neon/Deuterium) as a function of NU.
PI+ multiplicty ratio (Neon/Deuterium) as a function of Z.
K+ multiplicty ratio (Neon/Deuterium) as a function of Z.
P multiplicty ratio (Neon/Deuterium) as a function of Z.
PI+ multiplicty ratio (Neon/Deuterium) as a function of Q**2.
K+ multiplicty ratio (Neon/Deuterium) as a function of Q**2.
P multiplicty ratio (Neon/Deuterium) as a function of Q**2.
PI+ multiplicty ratio (Krypton/Deuterium) as a function of NU.
K+ multiplicty ratio (Krypton/Deuterium) as a function of NU.
P multiplicty ratio (Krypton/Deuterium) as a function of NU.
PI+ multiplicty ratio (Krypton/Deuterium) as a function of Z.
K+ multiplicty ratio (Krypton/Deuterium) as a function of Z.
P multiplicty ratio (Krypton/Deuterium) as a function of Z.
PI+ multiplicty ratio (Krypton/Deuterium) as a function of Q**2.
K+ multiplicty ratio (Krypton/Deuterium) as a function of Q**2.
P multiplicty ratio (Krypton/Deuterium) as a function of Q**2.
PI+ multiplicty ratio (Xenon/Deuterium) as a function of NU.
K+ multiplicty ratio (Xenon/Deuterium) as a function of NU.
P multiplicty ratio (Xenon/Deuterium) as a function of NU.
PI+ multiplicty ratio (Xenon/Deuterium) as a function of Z.
K+ multiplicty ratio (Xenon/Deuterium) as a function of Z.
P multiplicty ratio (Xenon/Deuterium) as a function of Z.
PI+ multiplicty ratio (Xenon/Deuterium) as a function of Q**2.
K+ multiplicty ratio (Xenon/Deuterium) as a function of Q**2.
P multiplicty ratio (Xenon/Deuterium) as a function of Q**2.
PI- multiplicity ratio (Helium/Deuterium) as a function of NU.
K- multiplicity ratio (Helium/Deuterium) as a function of NU.
PBAR multiplicity ratio (Helium/Deuterium) as a function of NU.
PI- multiplicity ratio (Helium/Deuterium) as a function of Z.
K- multiplicity ratio (Helium/Deuterium) as a function of Z.
PBAR multiplicity ratio (Helium/Deuterium) as a function of Z.
PI- multiplicity ratio (Helium/Deuterium) as a function of Q**2.
K- multiplicity ratio (Helium/Deuterium) as a function of Q**2.
PBAR multiplicity ratio (Helium/Deuterium) as a function of Q**2.
PI- multiplicity ratio (Neon/Deuterium) as a function of NU.
K- multiplicity ratio (Neon/Deuterium) as a function of NU.
PBAR multiplicity ratio (Neon/Deuterium) as a function of NU.
PI- multiplicity ratio (Neon/Deuterium) as a function of Z.
K- multiplicity ratio (Neon/Deuterium) as a function of Z.
PBAR multiplicity ratio (Neon/Deuterium) as a function of Z.
PI- multiplicity ratio (Neon/Deuterium) as a function of Q**2.
K- multiplicity ratio (Neon/Deuterium) as a function of Q**2.
PBAR multiplicity ratio (Neon/Deuterium) as a function of Q**2.
PI- multiplicity ratio (Krypton/Deuterium) as a function of NU.
K- multiplicity ratio (Krypton/Deuterium) as a function of NU.
PBAR multiplicity ratio (Krypton/Deuterium) as a function of NU.
PI- multiplicity ratio (Krypton/Deuterium) as a function of Z.
K- multiplicity ratio (Krypton/Deuterium) as a function of Z.
PBAR multiplicity ratio (Krypton/Deuterium) as a function of Z.
PI- multiplicity ratio (Krypton/Deuterium) as a function of Q**2.
K- multiplicity ratio (Krypton/Deuterium) as a function of Q**2.
PBAR multiplicity ratio (Krypton/Deuterium) as a function of Q**2.
PI- multiplicity ratio (Xenon/Deuterium) as a function of NU.
K- multiplicity ratio (Xenon/Deuterium) as a function of NU.
PBAR multiplicity ratio (Xenon/Deuterium) as a function of NU.
PI- multiplicity ratio (Xenon/Deuterium) as a function of Z.
K- multiplicity ratio (Xenon/Deuterium) as a function of Z.
PBAR multiplicity ratio (Xenon/Deuterium) as a function of Z.
PI- multiplicity ratio (Xenon/Deuterium) as a function of Q**2.
K- multiplicity ratio (Xenon/Deuterium) as a function of Q**2.
PBAR multiplicity ratio (Xenon/Deuterium) as a function of Q**2.
PI+ multiplicity ratio (Helium/Deuterium) as a function of PT**2.
K+ multiplicity ratio (Helium/Deuterium) as a function of PT**2.
P multiplicity ratio (Helium/Deuterium) as a function of PT**2.
PI- multiplicity ratio (Helium/Deuterium) as a function of PT**2.
K- multiplicity ratio (Helium/Deuterium) as a function of PT**2.
PBAR multiplicity ratio (Helium/Deuterium) as a function of PT**2.
PI+ multiplicity ratio (Neon/Deuterium) as a function of PT**2.
K+ multiplicity ratio (Neon/Deuterium) as a function of PT**2.
P multiplicity ratio (Neon/Deuterium) as a function of PT**2.
PI- multiplicity ratio (Neon/Deuterium) as a function of PT**2.
K- multiplicity ratio (Neon/Deuterium) as a function of PT**2.
PBAR multiplicity ratio (Neon/Deuterium) as a function of PT**2.
PI+ multiplicity ratio (Krypton/Deuterium) as a function of PT**2.
K+ multiplicity ratio (Krypton/Deuterium) as a function of PT**2.
P multiplicity ratio (Krypton/Deuterium) as a function of PT**2.
PI- multiplicity ratio (Krypton/Deuterium) as a function of PT**2.
K- multiplicity ratio (Krypton/Deuterium) as a function of PT**2.
PBAR multiplicity ratio (Krypton/Deuterium) as a function of PT**2.
PI+ multiplicity ratio (Xenon/Deuterium) as a function of PT**2.
K+ multiplicity ratio (Xenon/Deuterium) as a function of PT**2.
P multiplicity ratio (Xenon/Deuterium) as a function of PT**2.
PI- multiplicity ratio (Xenon/Deuterium) as a function of PT**2.
K- multiplicity ratio (Xenon/Deuterium) as a function of PT**2.
PBAR multiplicity ratio (Xenon/Deuterium) as a function of PT**2.
PI0 multiplicity ratio (Helium/Deuterium) as a function of NU.
PI0 multiplicity ratio (Helium/Deuterium) as a function of Z.
PI0 multiplicity ratio (Helium/Deuterium) as a function of Q**2.
PI0 multiplicity ratio (Helium/Deuterium) as a function of PT**2.
PI0 multiplicity ratio (Neon/Deuterium) as a function of NU.
PI0 multiplicity ratio (Neon/Deuterium) as a function of Z.
PI0 multiplicity ratio (Neon/Deuterium) as a function of Q**2.
PI0 multiplicity ratio (Neon/Deuterium) as a function of PT**2.
PI0 multiplicity ratio (Krypton/Deuterium) as a function of NU.
PI0 multiplicity ratio (Krypton/Deuterium) as a function of Z.
PI0 multiplicity ratio (Krypton/Deuterium) as a function of Q**2.
PI0 multiplicity ratio (Krypton/Deuterium) as a function of PT**2.
PI0 multiplicity ratio (Xenon/Deuterium) as a function of NU.
PI0 multiplicity ratio (Xenon/Deuterium) as a function of Z.
PI0 multiplicity ratio (Xenon/Deuterium) as a function of Q**2.
PI0 multiplicity ratio (Xenon/Deuterium) as a function of PT**2.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of NU for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of NU for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of NU for Z > 0.7.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of Q**2 for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of Q**2 for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of Q**2 for Z > 0.7.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of PT**2 for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of PT**2 for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of PT**2 for Z > 0.7.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of NU for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of NU for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of NU for Z > 0.7.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of Q**2 for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of Q**2 for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of Q**2 for Z > 0.7.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of PT**2 for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of PT**2 for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of PT**2 for Z > 0.7.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of NU for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of NU for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of NU for Z > 0.7.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of Q**2 for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of Q**2 for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of Q**2 for Z > 0.7.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of PT**2 for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of PT**2 for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of PT**2 for Z > 0.7.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of NU for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of NU for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of NU for Z > 0.7.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of Q**2 for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of Q**2 for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of Q**2 for Z > 0.7.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of PT**2 for Z 0.2 TO 0.4.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of PT**2 for Z 0.4 TO 0.7.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of PT**2 for Z > 0.7.
Charged pion multiplicity ratio(Helium/Deuterium) as a function of Z for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Helium/Deuterium) as a function of Z for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Helium/Deuterium) as a function of Z for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Helium/Deuterium) as a function of Q**2 for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Helium/Deuterium) as a function of Q**2 for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Helium/Deuterium) as a function of Q**2 for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Helium/Deuterium) as a function of PT**2 for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Helium/Deuterium) as a function of PT**2 for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Helium/Deuterium) as a function of PT**2 for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Neon/Deuterium) as a function of Z for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Neon/Deuterium) as a function of Z for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Neon/Deuterium) as a function of Z for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Neon/Deuterium) as a function of Q**2 for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Neon/Deuterium) as a function of Q**2 for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Neon/Deuterium) as a function of Q**2 for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Neon/Deuterium) as a function of PT**2 for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Neon/Deuterium) as a function of PT**2 for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Neon/Deuterium) as a function of PT**2 for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Krypton/Deuterium) as a function of Z for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Krypton/Deuterium) as a function of Z for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Krypton/Deuterium) as a function of Z for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Krypton/Deuterium) as a function of Q**2 for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Krypton/Deuterium) as a function of Q**2 for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Krypton/Deuterium) as a function of Q**2 for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Krypton/Deuterium) as a function of PT**2 for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Krypton/Deuterium) as a function of PT**2 for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Krypton/Deuterium) as a function of PT**2 for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Xenon/Deuterium) as a function of Z for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Xenon/Deuterium) as a function of Z for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Xenon/Deuterium) as a function of Z for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Xenon/Deuterium) as a function of Q**2 for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Xenon/Deuterium) as a function of Q**2 for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Xenon/Deuterium) as a function of Q**2 for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio(Xenon/Deuterium) as a function of PT**2 for NU 6 TO 12 GeV.
Charged pion multiplicity ratio(Xenon/Deuterium) as a function of PT**2 for NU 12 TO 17 GeV.
Charged pion multiplicity ratio(Xenon/Deuterium) as a function of PT**2 for NU 17 TO 23.5 GeV.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of NU for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of NU for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of Z for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of Z for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of Q**2 for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of Q**2 for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of NU for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of NU for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of Z for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of Z for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of Q**2 for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of Q**2 for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of NU for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of NU for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of Z for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of Z for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of Q**2 for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of Q**2 for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of NU for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of NU for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of Z for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of Z for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of Q**2 for PT**2 < 0.7 GeV**2.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of Q**2 for PT**2 > 0.7 GeV**2.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 20 TO 23.5 GeV.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 17 TO 20 GeV.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 14 TO 17 GeV.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 11 TO 14 GeV.
Charged pion multiplicity ratio (Helium/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 6 TO 11 GeV.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 20 TO 23.5 GeV.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 17 TO 20 GeV.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 14 TO 17 GeV.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 11 TO 14 GeV.
Charged pion multiplicity ratio (Neon/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 6 TO 11 GeV.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 20 TO 23.5 GeV.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 17 TO 20 GeV.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 14 TO 17 GeV.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 11 TO 14 GeV.
Charged pion multiplicity ratio (Krypton/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 6 TO 11 GeV.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 20 TO 23.5 GeV.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 17 TO 20 GeV.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 14 TO 17 GeV.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 11 TO 14 GeV.
Charged pion multiplicity ratio (Xenon/Deuterium) as a function of the formation Length Lc (see text of paper). for NU 6 TO 11 GeV.
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