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The $2\pi$ Subsystem in Diffractively Produced $\pi^-\pi^+\pi^-$ at COMPASS
The COMPASS experiment at CERN has collected a large dataset of $50$ million $\pi^-\pi^+\pi^-$ events produced diffractively from a proton target using a $190\,\mathrm{GeV}/c$ pion beam. The partial-wave analysis (PWA) of these high-precision data reveals previously unseen details but is limited in...
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| Lenguaje: | eng |
| Publicado: |
2015
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| Acceso en línea: | https://dx.doi.org/10.1063/1.4949396 http://cds.cern.ch/record/2115082 |
| _version_ | 1780949167287304192 |
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| author | Krinner, Fabian |
| author_facet | Krinner, Fabian |
| author_sort | Krinner, Fabian |
| collection | CERN |
| description | The COMPASS experiment at CERN has collected a large dataset of $50$ million $\pi^-\pi^+\pi^-$ events produced diffractively from a proton target using a $190\,\mathrm{GeV}/c$ pion beam. The partial-wave analysis (PWA) of these high-precision data reveals previously unseen details but is limited in parts by systematic effects. The PWA is based on the isobar model, in which multi-particle decays are described as a chain of subsequent two-body decays. Here, fixed mass distributions for the appearing intermediate resonances, the so-called isobars, are assumed. These shapes, which e.g. may be parametrized by Breit-Wigner amplitudes, represent prior knowledge that has to be put into the analysis model and may therefore introduce a model dependence, thus increasing systematic uncertainties. We present a novel method, which allows to extract isobar amplitudes directly from the data in a more model-independent way. As a first application, diffractively produced $\pi^-\pi^+\pi^-$ events are analyzed. Here, the focus lies in particular on the scalar $\pi^+\pi^-$ subsystem, where in a previous analysis a signal for a new axial-vector state $a_1(1420)$ was found in the $f_0(980)\pi$ decay mode. |
| id | cern-2115082 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2015 |
| record_format | invenio |
| spelling | cern-21150822023-03-14T18:34:01Zdoi:10.1063/1.4949396http://cds.cern.ch/record/2115082engKrinner, FabianThe $2\pi$ Subsystem in Diffractively Produced $\pi^-\pi^+\pi^-$ at COMPASSParticle Physics - ExperimentParticle Physics - PhenomenologyParticle Physics - ExperimentThe COMPASS experiment at CERN has collected a large dataset of $50$ million $\pi^-\pi^+\pi^-$ events produced diffractively from a proton target using a $190\,\mathrm{GeV}/c$ pion beam. The partial-wave analysis (PWA) of these high-precision data reveals previously unseen details but is limited in parts by systematic effects. The PWA is based on the isobar model, in which multi-particle decays are described as a chain of subsequent two-body decays. Here, fixed mass distributions for the appearing intermediate resonances, the so-called isobars, are assumed. These shapes, which e.g. may be parametrized by Breit-Wigner amplitudes, represent prior knowledge that has to be put into the analysis model and may therefore introduce a model dependence, thus increasing systematic uncertainties. We present a novel method, which allows to extract isobar amplitudes directly from the data in a more model-independent way. As a first application, diffractively produced $\pi^-\pi^+\pi^-$ events are analyzed. Here, the focus lies in particular on the scalar $\pi^+\pi^-$ subsystem, where in a previous analysis a signal for a new axial-vector state $a_1(1420)$ was found in the $f_0(980)\pi$ decay mode.The Compass experiment at CERN has collected a large dataset of 50 million π−π+π− events produced diffractively from a proton target using a 190GeV/cpion beam. The partial-wave analysis (PWA) of these high-precision data reveals previously unseen details but is limited in parts by systematic effects. The PWA is based on the isobar model, in which multi-particle decays are described as a chain of subsequent two-body decays. Here, fixed mass distributions for the appearing intermediate resonances, the so-called isobars, are assumed. These shapes, which e.g. may be parametrized by Breit-Wigner amplitudes, represent prior knowledge that has to be put into the analysis model and may therefore introduce a model dependence, thus increasing systematic uncertainties. We present a novel method, which allows to extract isobar amplitudes directly from the data in a more model-independent way. As a first application, diffractively produced π−π+π− events are analyzed. Here, the focus lies in particular on the scalar π+π− subsystem, where in a previous analysis a signal for a new axial-vector state a1(1420) was found in the f0(980)π decay mode.The Compass experiment at CERN has collected a large dataset of 50 million π−π+π− events produced diffractively from a proton target using a 190GeV/c pion beam. The partial-wave analysis (PWA) of these high-precision data reveals previously unseen details but is limited in parts by systematic effects. The PWA is based on the isobar model, in which multi-particle decays are described as a chain of subsequent two-body decays. Here, fixed mass distributions for the appearing intermediate resonances, the so-called isobars, are assumed. These shapes, which e.g. may be parametrized by Breit-Wigner amplitudes, represent prior knowledge that has to be put into the analysis model and may therefore introduce a model dependence, thus increasing systematic uncertainties. We present a novel method, which allows to extract isobar amplitudes directly from the data in a more model-independent way. As a first application, diffractively produced π−π+π− events are analyzed. Here, the focus lies in particular on the scalar π+π− subsystem, where in a previous analysis a signal for a new axial-vector state a1(1420) was found in the f0(980)π decay mode.The COMPASS experiment at CERN has collected a large dataset of $50$ million $\pi^-\pi^+\pi^-$ events produced diffractively from a proton target using a $190\,\mathrm{GeV}/c$ pion beam. The partial-wave analysis (PWA) of these high-precision data reveals previously unseen details but is limited in parts by systematic effects. The PWA is based on the isobar model, in which multi-particle decays are described as a chain of subsequent two-body decays. Here, fixed mass distributions for the appearing intermediate resonances, the so-called isobars, are assumed. These shapes, which e.g. may be parametrized by Breit-Wigner amplitudes, represent prior knowledge that has to be put into the analysis model and may therefore introduce a model dependence, thus increasing systematic uncertainties. We present a novel method, which allows to extract isobar amplitudes directly from the data in a more model-independent way. As a first application, diffractively produced $\pi^-\pi^+\pi^-$ events are analyzed. Here, the focus lies in particular on the scalar $\pi^+\pi^-$ subsystem, where in a previous analysis a signal for a new axial-vector state $a_1(1420)$ was found in the $f_0(980)\pi$ decay mode.arXiv:1512.04249oai:cds.cern.ch:21150822015-12-14 |
| spellingShingle | Particle Physics - Experiment Particle Physics - Phenomenology Particle Physics - Experiment Krinner, Fabian The $2\pi$ Subsystem in Diffractively Produced $\pi^-\pi^+\pi^-$ at COMPASS |
| title | The $2\pi$ Subsystem in Diffractively Produced $\pi^-\pi^+\pi^-$ at COMPASS |
| title_full | The $2\pi$ Subsystem in Diffractively Produced $\pi^-\pi^+\pi^-$ at COMPASS |
| title_fullStr | The $2\pi$ Subsystem in Diffractively Produced $\pi^-\pi^+\pi^-$ at COMPASS |
| title_full_unstemmed | The $2\pi$ Subsystem in Diffractively Produced $\pi^-\pi^+\pi^-$ at COMPASS |
| title_short | The $2\pi$ Subsystem in Diffractively Produced $\pi^-\pi^+\pi^-$ at COMPASS |
| title_sort | $2\pi$ subsystem in diffractively produced $\pi^-\pi^+\pi^-$ at compass |
| topic | Particle Physics - Experiment Particle Physics - Phenomenology Particle Physics - Experiment |
| url | https://dx.doi.org/10.1063/1.4949396 http://cds.cern.ch/record/2115082 |
| work_keys_str_mv | AT krinnerfabian the2pisubsystemindiffractivelyproducedpipipiatcompass AT krinnerfabian 2pisubsystemindiffractivelyproducedpipipiatcompass |