Cargando…
Inclusive hadronic fragmentation in K$^{\pm}$p interactions at 32 GeV/c and counting rules
Longitudinal invariant structure functions E d σ d x for a number oflow p t hadronic fragments produced in K +- interactions at 32 GeV/ c are presented. Data were obtained in the Mirabelle bubble chamber. The fragmentation modes investigated are K ± → K 0 , K̄ 0 , K ∗0,+ (890), K̄ ∗0,− (890), ϕ, ϱ 0...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Lenguaje: | eng |
| Publicado: |
1981
|
| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/0370-2693(81)90382-8 http://cds.cern.ch/record/125708 |
| _version_ | 1780879278841266176 |
|---|---|
| author | Denegri, Daniel Lewin, C Cochet, Christian Jabiol, M A Mosca, L Faccini-Turluer, M L Vilanova, D Becker, L Gensch, Ulrich Barth, Monique De Wolf, E A Gysen, M G Van Immerseel, M Poiret, C Windmolders, R Arestov, Yu I Chliapnikov, P V Kozlovskii, E Ukhanov, M N Dibon, Heinz Markytan, Manfred |
| author_facet | Denegri, Daniel Lewin, C Cochet, Christian Jabiol, M A Mosca, L Faccini-Turluer, M L Vilanova, D Becker, L Gensch, Ulrich Barth, Monique De Wolf, E A Gysen, M G Van Immerseel, M Poiret, C Windmolders, R Arestov, Yu I Chliapnikov, P V Kozlovskii, E Ukhanov, M N Dibon, Heinz Markytan, Manfred |
| author_sort | Denegri, Daniel |
| collection | CERN |
| description | Longitudinal invariant structure functions E d σ d x for a number oflow p t hadronic fragments produced in K +- interactions at 32 GeV/ c are presented. Data were obtained in the Mirabelle bubble chamber. The fragmentation modes investigated are K ± → K 0 , K̄ 0 , K ∗0,+ (890), K̄ ∗0,− (890), ϕ, ϱ 0 , π +- , Λ, ḡL, and p → p inel , Δ ++ (1236), Λ, ḡL, π ± , K 0 , ϱ 0 . These various fragmentation spectra clearly fall into a definite hierarchy, the invariant cross sections being more suppressed at large | x | the bigger the difference between initial and final state hadron quantum numbers. Invariant cross sections in the fragmentation regions are adequately fitted by a power law Edσ / dx ∝ (1 − | x |) n as suggested by dimensional or Regge counting The values of n are in general consistent with values obtained at FNAL and ISR energies for comparable data. They are in good overall agreement with the quark counting rules as recently reformulated, and the deviations observed suggest corrections due to strange (s) and light (u, d) quark mass differences. The power laws governing the kaon valence quark structure functions behave at large x as s K V ( x ) x →+1 ∼ (1 − x ) 0.5 and ū K V (x) x→+1 ∼ (1 − x) 1.5 . |
| id | cern-125708 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 1981 |
| record_format | invenio |
| spelling | cern-1257082019-09-30T06:29:59Zdoi:10.1016/0370-2693(81)90382-8http://cds.cern.ch/record/125708engDenegri, DanielLewin, CCochet, ChristianJabiol, M AMosca, LFaccini-Turluer, M LVilanova, DBecker, LGensch, UlrichBarth, MoniqueDe Wolf, E AGysen, M GVan Immerseel, MPoiret, CWindmolders, RArestov, Yu IChliapnikov, P VKozlovskii, EUkhanov, M NDibon, HeinzMarkytan, ManfredInclusive hadronic fragmentation in K$^{\pm}$p interactions at 32 GeV/c and counting rulesParticle Physics - ExperimentLongitudinal invariant structure functions E d σ d x for a number oflow p t hadronic fragments produced in K +- interactions at 32 GeV/ c are presented. Data were obtained in the Mirabelle bubble chamber. The fragmentation modes investigated are K ± → K 0 , K̄ 0 , K ∗0,+ (890), K̄ ∗0,− (890), ϕ, ϱ 0 , π +- , Λ, ḡL, and p → p inel , Δ ++ (1236), Λ, ḡL, π ± , K 0 , ϱ 0 . These various fragmentation spectra clearly fall into a definite hierarchy, the invariant cross sections being more suppressed at large | x | the bigger the difference between initial and final state hadron quantum numbers. Invariant cross sections in the fragmentation regions are adequately fitted by a power law Edσ / dx ∝ (1 − | x |) n as suggested by dimensional or Regge counting The values of n are in general consistent with values obtained at FNAL and ISR energies for comparable data. They are in good overall agreement with the quark counting rules as recently reformulated, and the deviations observed suggest corrections due to strange (s) and light (u, d) quark mass differences. The power laws governing the kaon valence quark structure functions behave at large x as s K V ( x ) x →+1 ∼ (1 − x ) 0.5 and ū K V (x) x→+1 ∼ (1 − x) 1.5 .DPHPE-80-13oai:cds.cern.ch:1257081981 |
| spellingShingle | Particle Physics - Experiment Denegri, Daniel Lewin, C Cochet, Christian Jabiol, M A Mosca, L Faccini-Turluer, M L Vilanova, D Becker, L Gensch, Ulrich Barth, Monique De Wolf, E A Gysen, M G Van Immerseel, M Poiret, C Windmolders, R Arestov, Yu I Chliapnikov, P V Kozlovskii, E Ukhanov, M N Dibon, Heinz Markytan, Manfred Inclusive hadronic fragmentation in K$^{\pm}$p interactions at 32 GeV/c and counting rules |
| title | Inclusive hadronic fragmentation in K$^{\pm}$p interactions at 32 GeV/c and counting rules |
| title_full | Inclusive hadronic fragmentation in K$^{\pm}$p interactions at 32 GeV/c and counting rules |
| title_fullStr | Inclusive hadronic fragmentation in K$^{\pm}$p interactions at 32 GeV/c and counting rules |
| title_full_unstemmed | Inclusive hadronic fragmentation in K$^{\pm}$p interactions at 32 GeV/c and counting rules |
| title_short | Inclusive hadronic fragmentation in K$^{\pm}$p interactions at 32 GeV/c and counting rules |
| title_sort | inclusive hadronic fragmentation in k$^{\pm}$p interactions at 32 gev/c and counting rules |
| topic | Particle Physics - Experiment |
| url | https://dx.doi.org/10.1016/0370-2693(81)90382-8 http://cds.cern.ch/record/125708 |
| work_keys_str_mv | AT denegridaniel inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT lewinc inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT cochetchristian inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT jabiolma inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT moscal inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT facciniturluerml inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT vilanovad inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT beckerl inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT genschulrich inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT barthmonique inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT dewolfea inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT gysenmg inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT vanimmerseelm inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT poiretc inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT windmoldersr inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT arestovyui inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT chliapnikovpv inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT kozlovskiie inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT ukhanovmn inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT dibonheinz inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules AT markytanmanfred inclusivehadronicfragmentationinkpmpinteractionsat32gevcandcountingrules |