Antiproton over proton and K$^-$ over K$^+$ multiplicity ratios at high $z$ in DIS

The $\bar{\rm p} $ over p multiplicity ratio is measured in deep-inelastic scattering for the first time using (anti-) protons carrying a large fraction of the virtual-photon energy, $z>0.5$. The data were obtained by the COMPASS Collaboration using a 160 GeV muon beam impinging on an isoscalar...

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Autores principales: Alexeev, G.D., Alexeev, M. G., Amoroso, A., Andrieux, V., Anosov, V., Antoshkin, A., Augsten, K., Augustyniak, W., Azevedo, C.D.R., Badelek, B., Balestra, F., Ball, M., Barth, J., Beck, R., Bedfer, Y., Berenguer Antequera, J., Bernhard, J., Bodlak, M., Bradamante, F., Bressan, A., Buechele, M., Burtsev, V.E., Chang, W.-C., Chatterjee, C., Chiosso, M., Chumakov, A.G., Chung, S.-U., Cicuttin, A., Correia, P.M.M., Crespo, M.L., D'Ago, D., Dalla Torre, S., Dasgupta, S.S., Dasgupta, S., Denisenko, I., Denisov, O.Yu., Donskov, S.V., Doshita, N., Dreisbach, Ch., Duennweber, W., Dusaev, R.R., Efremov, A., Eversheim, P.D., Faccioli, P., Faessler, M., Finger, M., Finger jr., M., Fischer, H., Franco, C., Friedrich, J.M., Frolov, V., Gautheron, F., Gavrichtchouk, O.P., Gerassimov, S., Giarra, J., Gnesi, I., Gorzellik, M., Grasso, A., Gridin, A., Grosse Perdekamp, M., Grube, B., Guskov, A., von Harrach, D., Heitz, R., Herrmann, F., Horikawa, N., d'Hose, N., Hsieh, C.-Y., Huber, S., Ishimoto, S., Ivanov, A., Iwata, T., Jandek, M., Jary, T., Joosten, R., Joerg, P., Kabuss, E., Kaspar, F., Kerbizi, A., Ketzer, B., Khaustov, G.V., Khokhlov, Yu.A., Kisselev, Yu., Klein, F., Koivuniemi, J.H., Kolosov, V.N., Kondo Horikawa, K., Konorov, I., Konstantinov, V.F., Kotzinian, A.M., Kouznetsov, O.M., Koval, A., Kral, Z., Krinner, F., Kulinich, Y., Kunne, F., Kurek, K., Kurjata, R.P., Kveton, A., Lavickova, K., Levorato, S., Lian, Y.-S., Lichtenstadt, J., Lin, P.-J., Longo, R., Lyubovitskij, V.E., Maggiora, A., Magnon, A., Makins, N., Makke, N., Mallot, G.K., Maltsev, A., Mamon, S.A., Marianski, B., Martin, A., Marzec, J., Matousek, J., Matsuda, T., Mattson, G., Meshcheryakov, G.V., Meyer, M., Meyer, W., Mikhailov, Yu.V., Mikhasenko, M., Mitrofanov, E., Mitrofanov, N., Miyachi, Y., Moretti, A., Nagaytsev, A., Naim, C., Neyret, D., Novy, J., Nowak, W.-D., Nukazuka, G., Nunes, A.S., Olshevskiy, A.G., Ostrick, M., Panzieri, D., Parsamyan, B., Paul, S., Pekeler, H., Peng, J.-C., Pesek, M., Peshekhonov, D.V., Peskova, M., Pierre, N., Platchkov, S., Pochodzalla, J., Polyakov, V.A., Pretz, J., Quaresma, M., Quintans, C., Reicherz, G., Riedl, C., Rudnicki, T., Ryabchikov, D.I., Rybnikov, A., Rychter, A., Samoylenko, V.D., Sandacz, A., Sarkar, S., Savin, I.A., Sbrizzai, G., Schmieden, H., Selyunin, A., Sinha, L., Slunecka, M., Smolik, J., Srnka, A., Steffen, D., Stolarski, M., Subrt, O., Sulc, M., Suzuki, H., Sznajder, P., Tessaro, S., Tessarotto, F., Thiel, A., Tomsa, J., Tosello, F., Townsend, A., Tskhay, V., Uhl, S., Vasilishin, B.I., Vauth, A., Veit, B.M., Veloso, J., Ventura, B., Vidon, A., Virius, M., Wagner, M., Wallner, S., Zaremba, K., Zavada, P., Zavertyaev, M., Zemko, M., Zemlyanichkina, E., Zhao, Y., Ziembicki, M.
Lenguaje:eng
Publicado: 2020
Materias:
Particle Physics - Experiment
hep-ex
Acceso en línea:https://dx.doi.org/10.1016/j.physletb.2020.135600
http://cds.cern.ch/record/2713404
_version_ 1780965330008408064
author Alexeev, G.D.
Alexeev, M. G.
Amoroso, A.
Andrieux, V.
Anosov, V.
Antoshkin, A.
Augsten, K.
Augustyniak, W.
Azevedo, C.D.R.
Badelek, B.
Balestra, F.
Ball, M.
Barth, J.
Beck, R.
Bedfer, Y.
Berenguer Antequera, J.
Bernhard, J.
Bodlak, M.
Bradamante, F.
Bressan, A.
Buechele, M.
Burtsev, V.E.
Chang, W.-C.
Chatterjee, C.
Chiosso, M.
Chumakov, A.G.
Chung, S.-U.
Cicuttin, A.
Correia, P.M.M.
Crespo, M.L.
D'Ago, D.
Dalla Torre, S.
Dasgupta, S.S.
Dasgupta, S.
Denisenko, I.
Denisov, O.Yu.
Donskov, S.V.
Doshita, N.
Dreisbach, Ch.
Duennweber, W.
Dusaev, R.R.
Efremov, A.
Eversheim, P.D.
Faccioli, P.
Faessler, M.
Finger, M.
Finger jr., M.
Fischer, H.
Franco, C.
Friedrich, J.M.
Frolov, V.
Gautheron, F.
Gavrichtchouk, O.P.
Gerassimov, S.
Giarra, J.
Gnesi, I.
Gorzellik, M.
Grasso, A.
Gridin, A.
Grosse Perdekamp, M.
Grube, B.
Guskov, A.
von Harrach, D.
Heitz, R.
Herrmann, F.
Horikawa, N.
d'Hose, N.
Hsieh, C.-Y.
Huber, S.
Ishimoto, S.
Ivanov, A.
Iwata, T.
Jandek, M.
Jary, T.
Joosten, R.
Joerg, P.
Kabuss, E.
Kaspar, F.
Kerbizi, A.
Ketzer, B.
Khaustov, G.V.
Khokhlov, Yu.A.
Kisselev, Yu.
Klein, F.
Koivuniemi, J.H.
Kolosov, V.N.
Kondo Horikawa, K.
Konorov, I.
Konstantinov, V.F.
Kotzinian, A.M.
Kouznetsov, O.M.
Koval, A.
Kral, Z.
Krinner, F.
Kulinich, Y.
Kunne, F.
Kurek, K.
Kurjata, R.P.
Kveton, A.
Lavickova, K.
Levorato, S.
Lian, Y.-S.
Lichtenstadt, J.
Lin, P.-J.
Longo, R.
Lyubovitskij, V.E.
Maggiora, A.
Magnon, A.
Makins, N.
Makke, N.
Mallot, G.K.
Maltsev, A.
Mamon, S.A.
Marianski, B.
Martin, A.
Marzec, J.
Matousek, J.
Matsuda, T.
Mattson, G.
Meshcheryakov, G.V.
Meyer, M.
Meyer, W.
Mikhailov, Yu.V.
Mikhasenko, M.
Mitrofanov, E.
Mitrofanov, N.
Miyachi, Y.
Moretti, A.
Nagaytsev, A.
Naim, C.
Neyret, D.
Novy, J.
Nowak, W.-D.
Nukazuka, G.
Nunes, A.S.
Olshevskiy, A.G.
Ostrick, M.
Panzieri, D.
Parsamyan, B.
Paul, S.
Pekeler, H.
Peng, J.-C.
Pesek, M.
Peshekhonov, D.V.
Peskova, M.
Pierre, N.
Platchkov, S.
Pochodzalla, J.
Polyakov, V.A.
Pretz, J.
Quaresma, M.
Quintans, C.
Reicherz, G.
Riedl, C.
Rudnicki, T.
Ryabchikov, D.I.
Rybnikov, A.
Rychter, A.
Samoylenko, V.D.
Sandacz, A.
Sarkar, S.
Savin, I.A.
Sbrizzai, G.
Schmieden, H.
Selyunin, A.
Sinha, L.
Slunecka, M.
Smolik, J.
Srnka, A.
Steffen, D.
Stolarski, M.
Subrt, O.
Sulc, M.
Suzuki, H.
Sznajder, P.
Tessaro, S.
Tessarotto, F.
Thiel, A.
Tomsa, J.
Tosello, F.
Townsend, A.
Tskhay, V.
Uhl, S.
Vasilishin, B.I.
Vauth, A.
Veit, B.M.
Veloso, J.
Ventura, B.
Vidon, A.
Virius, M.
Wagner, M.
Wallner, S.
Zaremba, K.
Zavada, P.
Zavertyaev, M.
Zemko, M.
Zemlyanichkina, E.
Zhao, Y.
Ziembicki, M.
author_facet Alexeev, G.D.
Alexeev, M. G.
Amoroso, A.
Andrieux, V.
Anosov, V.
Antoshkin, A.
Augsten, K.
Augustyniak, W.
Azevedo, C.D.R.
Badelek, B.
Balestra, F.
Ball, M.
Barth, J.
Beck, R.
Bedfer, Y.
Berenguer Antequera, J.
Bernhard, J.
Bodlak, M.
Bradamante, F.
Bressan, A.
Buechele, M.
Burtsev, V.E.
Chang, W.-C.
Chatterjee, C.
Chiosso, M.
Chumakov, A.G.
Chung, S.-U.
Cicuttin, A.
Correia, P.M.M.
Crespo, M.L.
D'Ago, D.
Dalla Torre, S.
Dasgupta, S.S.
Dasgupta, S.
Denisenko, I.
Denisov, O.Yu.
Donskov, S.V.
Doshita, N.
Dreisbach, Ch.
Duennweber, W.
Dusaev, R.R.
Efremov, A.
Eversheim, P.D.
Faccioli, P.
Faessler, M.
Finger, M.
Finger jr., M.
Fischer, H.
Franco, C.
Friedrich, J.M.
Frolov, V.
Gautheron, F.
Gavrichtchouk, O.P.
Gerassimov, S.
Giarra, J.
Gnesi, I.
Gorzellik, M.
Grasso, A.
Gridin, A.
Grosse Perdekamp, M.
Grube, B.
Guskov, A.
von Harrach, D.
Heitz, R.
Herrmann, F.
Horikawa, N.
d'Hose, N.
Hsieh, C.-Y.
Huber, S.
Ishimoto, S.
Ivanov, A.
Iwata, T.
Jandek, M.
Jary, T.
Joosten, R.
Joerg, P.
Kabuss, E.
Kaspar, F.
Kerbizi, A.
Ketzer, B.
Khaustov, G.V.
Khokhlov, Yu.A.
Kisselev, Yu.
Klein, F.
Koivuniemi, J.H.
Kolosov, V.N.
Kondo Horikawa, K.
Konorov, I.
Konstantinov, V.F.
Kotzinian, A.M.
Kouznetsov, O.M.
Koval, A.
Kral, Z.
Krinner, F.
Kulinich, Y.
Kunne, F.
Kurek, K.
Kurjata, R.P.
Kveton, A.
Lavickova, K.
Levorato, S.
Lian, Y.-S.
Lichtenstadt, J.
Lin, P.-J.
Longo, R.
Lyubovitskij, V.E.
Maggiora, A.
Magnon, A.
Makins, N.
Makke, N.
Mallot, G.K.
Maltsev, A.
Mamon, S.A.
Marianski, B.
Martin, A.
Marzec, J.
Matousek, J.
Matsuda, T.
Mattson, G.
Meshcheryakov, G.V.
Meyer, M.
Meyer, W.
Mikhailov, Yu.V.
Mikhasenko, M.
Mitrofanov, E.
Mitrofanov, N.
Miyachi, Y.
Moretti, A.
Nagaytsev, A.
Naim, C.
Neyret, D.
Novy, J.
Nowak, W.-D.
Nukazuka, G.
Nunes, A.S.
Olshevskiy, A.G.
Ostrick, M.
Panzieri, D.
Parsamyan, B.
Paul, S.
Pekeler, H.
Peng, J.-C.
Pesek, M.
Peshekhonov, D.V.
Peskova, M.
Pierre, N.
Platchkov, S.
Pochodzalla, J.
Polyakov, V.A.
Pretz, J.
Quaresma, M.
Quintans, C.
Reicherz, G.
Riedl, C.
Rudnicki, T.
Ryabchikov, D.I.
Rybnikov, A.
Rychter, A.
Samoylenko, V.D.
Sandacz, A.
Sarkar, S.
Savin, I.A.
Sbrizzai, G.
Schmieden, H.
Selyunin, A.
Sinha, L.
Slunecka, M.
Smolik, J.
Srnka, A.
Steffen, D.
Stolarski, M.
Subrt, O.
Sulc, M.
Suzuki, H.
Sznajder, P.
Tessaro, S.
Tessarotto, F.
Thiel, A.
Tomsa, J.
Tosello, F.
Townsend, A.
Tskhay, V.
Uhl, S.
Vasilishin, B.I.
Vauth, A.
Veit, B.M.
Veloso, J.
Ventura, B.
Vidon, A.
Virius, M.
Wagner, M.
Wallner, S.
Zaremba, K.
Zavada, P.
Zavertyaev, M.
Zemko, M.
Zemlyanichkina, E.
Zhao, Y.
Ziembicki, M.
author_sort Alexeev, G.D.
collection CERN
description The $\bar{\rm p} $ over p multiplicity ratio is measured in deep-inelastic scattering for the first time using (anti-) protons carrying a large fraction of the virtual-photon energy, $z>0.5$. The data were obtained by the COMPASS Collaboration using a 160 GeV muon beam impinging on an isoscalar $^6$LiD target. The regime of deep-inelastic scattering is ensured by requiring $Q^2$ > 1 (GeV/$c$)$^2$ for the photon virtuality and $W > 5$ GeV/$c^2$ for the invariant mass of the produced hadronic system. The range in Bjorken-$x$ is restricted to $0.01 < x < 0.40$. Protons and antiprotons are identified in the momentum range $20 \div 60$ GeV/$c$. In the whole studied $z$-region, the $\bar{\rm p}$ over p multiplicity ratio is found to be below the lower limit expected from calculations based on leading-order perturbative Quantum Chromodynamics (pQCD). Extending our earlier analysis of the K$^-$ over K$^+$ multiplicity ratio by including now events with larger virtual-photon energies, this ratio becomes closer to the expectation of next-to-leading order pQCD. The results of both analyses strengthen our earlier conclusion that the phase space available for hadronisation should be taken into account in the pQCD formalism.
id cern-2713404
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2020
record_format invenio
spelling cern-27134042023-10-21T02:34:04Zdoi:10.1016/j.physletb.2020.135600http://cds.cern.ch/record/2713404engAlexeev, G.D.Alexeev, M. G.Amoroso, A.Andrieux, V.Anosov, V.Antoshkin, A.Augsten, K.Augustyniak, W.Azevedo, C.D.R.Badelek, B.Balestra, F.Ball, M.Barth, J.Beck, R.Bedfer, Y.Berenguer Antequera, J.Bernhard, J.Bodlak, M.Bradamante, F.Bressan, A.Buechele, M.Burtsev, V.E.Chang, W.-C.Chatterjee, C.Chiosso, M.Chumakov, A.G.Chung, S.-U.Cicuttin, A.Correia, P.M.M.Crespo, M.L.D'Ago, D.Dalla Torre, S.Dasgupta, S.S.Dasgupta, S.Denisenko, I.Denisov, O.Yu.Donskov, S.V.Doshita, N.Dreisbach, Ch.Duennweber, W.Dusaev, R.R.Efremov, A.Eversheim, P.D.Faccioli, P.Faessler, M.Finger, M.Finger jr., M.Fischer, H.Franco, C.Friedrich, J.M.Frolov, V.Gautheron, F.Gavrichtchouk, O.P.Gerassimov, S.Giarra, J.Gnesi, I.Gorzellik, M.Grasso, A.Gridin, A.Grosse Perdekamp, M.Grube, B.Guskov, A.von Harrach, D.Heitz, R.Herrmann, F.Horikawa, N.d'Hose, N.Hsieh, C.-Y.Huber, S.Ishimoto, S.Ivanov, A.Iwata, T.Jandek, M.Jary, T.Joosten, R.Joerg, P.Kabuss, E.Kaspar, F.Kerbizi, A.Ketzer, B.Khaustov, G.V.Khokhlov, Yu.A.Kisselev, Yu.Klein, F.Koivuniemi, J.H.Kolosov, V.N.Kondo Horikawa, K.Konorov, I.Konstantinov, V.F.Kotzinian, A.M.Kouznetsov, O.M.Koval, A.Kral, Z.Krinner, F.Kulinich, Y.Kunne, F.Kurek, K.Kurjata, R.P.Kveton, A.Lavickova, K.Levorato, S.Lian, Y.-S.Lichtenstadt, J.Lin, P.-J.Longo, R.Lyubovitskij, V.E.Maggiora, A.Magnon, A.Makins, N.Makke, N.Mallot, G.K.Maltsev, A.Mamon, S.A.Marianski, B.Martin, A.Marzec, J.Matousek, J.Matsuda, T.Mattson, G.Meshcheryakov, G.V.Meyer, M.Meyer, W.Mikhailov, Yu.V.Mikhasenko, M.Mitrofanov, E.Mitrofanov, N.Miyachi, Y.Moretti, A.Nagaytsev, A.Naim, C.Neyret, D.Novy, J.Nowak, W.-D.Nukazuka, G.Nunes, A.S.Olshevskiy, A.G.Ostrick, M.Panzieri, D.Parsamyan, B.Paul, S.Pekeler, H.Peng, J.-C.Pesek, M.Peshekhonov, D.V.Peskova, M.Pierre, N.Platchkov, S.Pochodzalla, J.Polyakov, V.A.Pretz, J.Quaresma, M.Quintans, C.Reicherz, G.Riedl, C.Rudnicki, T.Ryabchikov, D.I.Rybnikov, A.Rychter, A.Samoylenko, V.D.Sandacz, A.Sarkar, S.Savin, I.A.Sbrizzai, G.Schmieden, H.Selyunin, A.Sinha, L.Slunecka, M.Smolik, J.Srnka, A.Steffen, D.Stolarski, M.Subrt, O.Sulc, M.Suzuki, H.Sznajder, P.Tessaro, S.Tessarotto, F.Thiel, A.Tomsa, J.Tosello, F.Townsend, A.Tskhay, V.Uhl, S.Vasilishin, B.I.Vauth, A.Veit, B.M.Veloso, J.Ventura, B.Vidon, A.Virius, M.Wagner, M.Wallner, S.Zaremba, K.Zavada, P.Zavertyaev, M.Zemko, M.Zemlyanichkina, E.Zhao, Y.Ziembicki, M.Antiproton over proton and K$^-$ over K$^+$ multiplicity ratios at high $z$ in DISParticle Physics - Experimenthep-exThe $\bar{\rm p} $ over p multiplicity ratio is measured in deep-inelastic scattering for the first time using (anti-) protons carrying a large fraction of the virtual-photon energy, $z>0.5$. The data were obtained by the COMPASS Collaboration using a 160 GeV muon beam impinging on an isoscalar $^6$LiD target. The regime of deep-inelastic scattering is ensured by requiring $Q^2$ > 1 (GeV/$c$)$^2$ for the photon virtuality and $W > 5$ GeV/$c^2$ for the invariant mass of the produced hadronic system. The range in Bjorken-$x$ is restricted to $0.01 < x < 0.40$. Protons and antiprotons are identified in the momentum range $20 \div 60$ GeV/$c$. In the whole studied $z$-region, the $\bar{\rm p}$ over p multiplicity ratio is found to be below the lower limit expected from calculations based on leading-order perturbative Quantum Chromodynamics (pQCD). Extending our earlier analysis of the K$^-$ over K$^+$ multiplicity ratio by including now events with larger virtual-photon energies, this ratio becomes closer to the expectation of next-to-leading order pQCD. The results of both analyses strengthen our earlier conclusion that the phase space available for hadronisation should be taken into account in the pQCD formalism.The antiparticle-over-particle multiplicity ratio is measured in deep-inelastic scattering for negatively and positively charged kaons and, for the first time, for antiprotons and protons. The data were obtained by the COMPASS Collaboration using a 160 GeV muon beam impinging on an isoscalar <sup loc="post">6</sup>LiD target. The regime of deep-inelastic scattering is ensured by requiring <math altimg="si1.svg"><msup><mrow><mi>Q</mi></mrow><mrow><mn>2</mn></mrow></msup></math> &gt; 1 (GeV/c)<sup loc="post">2</sup> for the photon virtuality and <math altimg="si2.svg"><mi>W</mi><mo linebreak="goodbreak" linebreakstyle="after">&gt;</mo><mn>5</mn></math> GeV/<math altimg="si3.svg"><msup><mrow><mi>c</mi></mrow><mrow><mn>2</mn></mrow></msup></math> for the invariant mass of the produced hadronic system. Bjorken-x is restricted to the range 0.01 to 0.40. Protons and antiprotons are identified in the momentum range from 20 GeV/c to 60 GeV/c and required to carry a large fraction of the virtual-photon energy, <math altimg="si4.svg"><mi>z</mi><mo linebreak="goodbreak" linebreakstyle="after">&gt;</mo><mn>0.5</mn></math>. In the whole studied z-region, the <math altimg="si5.svg"><mover accent="true"><mrow><mi mathvariant="normal">p</mi></mrow><mrow><mo stretchy="false">¯</mo></mrow></mover></math> over p multiplicity ratio is found to be below the lower limit expected from calculations based on leading-order perturbative Quantum Chromodynamics (pQCD). Kaons were previously analysed in the momentum range 12 GeV/c to 40 GeV/c. In the present analysis this range is extended up to 55 GeV/c, whereby events with larger virtual-photon energies are included in the analysis and the observed K<sup loc="post">−</sup> over K<sup loc="post">+</sup> ratio becomes closer to the expectation of next-to-leading order pQCD. The results of both analyses strengthen our earlier conclusion that at COMPASS energies the phase space available for single-hadron production in deep-inelastic scattering should be taken into account in the standard pQCD formalism.The antiparticle-over-particle multiplicity ratio is measured in deep-inelastic scattering for negatively and positively charged kaons and, for the first time, for antiprotons and protons. The data were obtained by the COMPASS Collaboration using a 160 GeV muon beam impinging on an isoscalar 6 LiD target. The regime of deep-inelastic scattering is ensured by requiring Q2 > 1 (GeV/ c ) 2 for the photon virtuality and W>5 GeV/ c2 for the invariant mass of the produced hadronic system. Bjorken- x is restricted to the range 0.01 to 0.40. Protons and antiprotons are identified in the momentum range from 20 GeV/ c to 60 GeV/ c and required to carry a large fraction of the virtual-photon energy, z>0.5 . In the whole studied z -region, the p¯ over p multiplicity ratio is found to be below the lower limit expected from calculations based on leading-order perturbative Quantum Chromodynamics (pQCD). Kaons were previously analysed in the momentum range 12 GeV/ c to 40 GeV/ c . In the present analysis this range is extended up to 55 GeV/ c , whereby events with larger virtual-photon energies are included in the analysis and the observed K − over K + ratio becomes closer to the expectation of next-to-leading order pQCD. The results of both analyses strengthen our earlier conclusion that at COMPASS energies the phase space available for single-hadron production in deep-inelastic scattering should be taken into account in the standard pQCD formalism.The $\bar{\rm p} $ over p multiplicity ratio is measured in deep-inelastic scattering for the first time using (anti-) protons carrying a large fraction of the virtual-photon energy, $z>0.5$. The data were obtained by the COMPASS Collaboration using a 160 GeV muon beam impinging on an isoscalar $^6$LiD target. The regime of deep-inelastic scattering is ensured by requiring $Q^2$ > 1 (GeV/$c$)$^2$ for the photon virtuality and $W > 5$ GeV/$c^2$ for the invariant mass of the produced hadronic system. The range in Bjorken-$x$ is restricted to $0.01 < x < 0.40$. Protons and antiprotons are identified in the momentum range $20 \div 60$ GeV/$c$. In the whole studied $z$-region, the $\bar{\rm p}$ over p multiplicity ratio is found to be below the lower limit expected from calculations based on leading-order perturbative Quantum Chromodynamics (pQCD). Extending our earlier analysis of the K$^-$ over K$^+$ multiplicity ratio by including now events with larger virtual-photon energies, this ratio becomes closer to the expectation of next-to-leading order pQCD. The results of both analyses strengthen our earlier conclusion that the phase space available for hadronisation should be taken into account in the pQCD formalism.arXiv:2003.11791CERN-EP-2020-041oai:cds.cern.ch:27134042020-03-20
spellingShingle Particle Physics - Experiment
hep-ex
Alexeev, G.D.
Alexeev, M. G.
Amoroso, A.
Andrieux, V.
Anosov, V.
Antoshkin, A.
Augsten, K.
Augustyniak, W.
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Ball, M.
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Beck, R.
Bedfer, Y.
Berenguer Antequera, J.
Bernhard, J.
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Bradamante, F.
Bressan, A.
Buechele, M.
Burtsev, V.E.
Chang, W.-C.
Chatterjee, C.
Chiosso, M.
Chumakov, A.G.
Chung, S.-U.
Cicuttin, A.
Correia, P.M.M.
Crespo, M.L.
D'Ago, D.
Dalla Torre, S.
Dasgupta, S.S.
Dasgupta, S.
Denisenko, I.
Denisov, O.Yu.
Donskov, S.V.
Doshita, N.
Dreisbach, Ch.
Duennweber, W.
Dusaev, R.R.
Efremov, A.
Eversheim, P.D.
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Faessler, M.
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Martin, A.
Marzec, J.
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Meshcheryakov, G.V.
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Meyer, W.
Mikhailov, Yu.V.
Mikhasenko, M.
Mitrofanov, E.
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Miyachi, Y.
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Pekeler, H.
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Pesek, M.
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Peskova, M.
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Platchkov, S.
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Polyakov, V.A.
Pretz, J.
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Riedl, C.
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Sbrizzai, G.
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Subrt, O.
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Suzuki, H.
Sznajder, P.
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Thiel, A.
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Tosello, F.
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Vauth, A.
Veit, B.M.
Veloso, J.
Ventura, B.
Vidon, A.
Virius, M.
Wagner, M.
Wallner, S.
Zaremba, K.
Zavada, P.
Zavertyaev, M.
Zemko, M.
Zemlyanichkina, E.
Zhao, Y.
Ziembicki, M.
Antiproton over proton and K$^-$ over K$^+$ multiplicity ratios at high $z$ in DIS
title Antiproton over proton and K$^-$ over K$^+$ multiplicity ratios at high $z$ in DIS
title_full Antiproton over proton and K$^-$ over K$^+$ multiplicity ratios at high $z$ in DIS
title_fullStr Antiproton over proton and K$^-$ over K$^+$ multiplicity ratios at high $z$ in DIS
title_full_unstemmed Antiproton over proton and K$^-$ over K$^+$ multiplicity ratios at high $z$ in DIS
title_short Antiproton over proton and K$^-$ over K$^+$ multiplicity ratios at high $z$ in DIS
title_sort antiproton over proton and k$^-$ over k$^+$ multiplicity ratios at high $z$ in dis
topic Particle Physics - Experiment
hep-ex
url https://dx.doi.org/10.1016/j.physletb.2020.135600
http://cds.cern.ch/record/2713404
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AT ziembickim antiprotonoverprotonandkoverkmultiplicityratiosathighzindis

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