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Recent Results on Spectroscopy from COMPASS
The COmmon Muon and Proton Apparatus for Structure and Spectroscopy (COMPASS) is a multi-purpose fixed-target experiment at the CERN Super Proton Synchrotron (SPS) aimed at studying the structure and spectrum of hadrons. The two-stage spectrometer has a good acceptance for charged as well as neutral...
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| Lenguaje: | eng |
| Publicado: |
2015
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| Acceso en línea: | https://dx.doi.org/10.1063/1.4949375 http://cds.cern.ch/record/2113352 |
| _version_ | 1780949028849057792 |
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| author | Grube, Boris |
| author_facet | Grube, Boris |
| author_sort | Grube, Boris |
| collection | CERN |
| description | The COmmon Muon and Proton Apparatus for Structure and Spectroscopy (COMPASS) is a multi-purpose fixed-target experiment at the CERN Super Proton Synchrotron (SPS) aimed at studying the structure and spectrum of hadrons. The two-stage spectrometer has a good acceptance for charged as well as neutral particles over a wide kinematic range and is thus able to measure a wide range of reactions. Light mesons are studied with negative (mostly $\pi^-$) and positive ($p$, $\pi^+$) hadron beams with a momentum of 190 GeV/$c$. The light-meson spectrum is investigated in various final states produced in diffractive dissociation reactions at squared four-momentum transfers to the target between 0.1 and 1.0 (GeV/$c$)$^2$. The flagship channel is the $\pi^-\pi^+\pi^-$ final state, for which COMPASS has recorded the currently largest data sample. These data not only allow for measuring the properties of known resonances with high precision, but also for searching for new states. Among these is a new resonance-like signal, the $a_1(1420)$, with unusual properties. The findings are confirmed by the analysis of the $\pi^-\pi^0\pi^0$ final state. Possible bias introduced by the parametrizations used to describe the $\pi\pi$ $S$-wave is studied using a novel analysis technique, which extracts the amplitude of the $\pi^+\pi^-$ sub-system as a function of $3\pi$ mass from the data. Of particular interest is the resonance content of the partial wave with spin-exotic $J^{PC} = 1^{-+}$ quantum numbers, which are forbidden for quark-antiquark states. This wave is studied in the two $3\pi$ channels. Further insight is gained by studying diffractively produced $\pi^-\eta$ or $\pi^-\eta'$ final states. |
| id | cern-2113352 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2015 |
| record_format | invenio |
| spelling | cern-21133522023-03-14T18:33:54Zdoi:10.1063/1.4949375http://cds.cern.ch/record/2113352engGrube, BorisRecent Results on Spectroscopy from COMPASSParticle Physics - ExperimentParticle Physics - PhenomenologyParticle Physics - ExperimentThe COmmon Muon and Proton Apparatus for Structure and Spectroscopy (COMPASS) is a multi-purpose fixed-target experiment at the CERN Super Proton Synchrotron (SPS) aimed at studying the structure and spectrum of hadrons. The two-stage spectrometer has a good acceptance for charged as well as neutral particles over a wide kinematic range and is thus able to measure a wide range of reactions. Light mesons are studied with negative (mostly $\pi^-$) and positive ($p$, $\pi^+$) hadron beams with a momentum of 190 GeV/$c$. The light-meson spectrum is investigated in various final states produced in diffractive dissociation reactions at squared four-momentum transfers to the target between 0.1 and 1.0 (GeV/$c$)$^2$. The flagship channel is the $\pi^-\pi^+\pi^-$ final state, for which COMPASS has recorded the currently largest data sample. These data not only allow for measuring the properties of known resonances with high precision, but also for searching for new states. Among these is a new resonance-like signal, the $a_1(1420)$, with unusual properties. The findings are confirmed by the analysis of the $\pi^-\pi^0\pi^0$ final state. Possible bias introduced by the parametrizations used to describe the $\pi\pi$ $S$-wave is studied using a novel analysis technique, which extracts the amplitude of the $\pi^+\pi^-$ sub-system as a function of $3\pi$ mass from the data. Of particular interest is the resonance content of the partial wave with spin-exotic $J^{PC} = 1^{-+}$ quantum numbers, which are forbidden for quark-antiquark states. This wave is studied in the two $3\pi$ channels. Further insight is gained by studying diffractively produced $\pi^-\eta$ or $\pi^-\eta'$ final states.The COmmon Muon and Proton Apparatus for Structure and Spectroscopy (COMPASS) is a multi-purpose fixed-target experiment at the CERN Super Proton Synchrotron (SPS) aimed at studying the structure and spectrum of hadrons. The two-stage spectrometer has a good acceptance for charged as well as neutral particles over a wide kinematic range and is thus able to measure a wide range of reactions.Light mesons are studied with negative (mostly π−) and positive (p, π+) hadron beams with a momentum of 190 GeV/c. The light-meson spectrum is investigated in various final states produced in diffractive dissociation reactions at squared four-momentum transfers to the target between 0.1 and 1.0 (GeV/c)2. The flagship channel is the π−π+π− final state, for which COMPASS has recorded the currently largest data sample. These data not only allow for measuring the properties of known resonances with high precision, but also for searching for new states. Among these is a new resonance-like signal, the a1(1420), with unusual properties. The findings are confirmed by the analysis of the π−π0π0 final state. Possible bias introduced by the parametrizations used to describe the ππS-wave is studied using a novel analysis technique, which extracts the amplitude of the π+π− sub-system as a function of 3π mass from the data. Of particular interest is the resonance content of the partial wave with spin-exotic JPC= 1−+ quantum numbers, which are forbidden for quark-antiquark states. This wave is studied in the two 3π channels. Further insight is gained by studying diffractively produced π−η or π−η′ final states.The COmmon Muon and Proton Apparatus for Structure and Spectroscopy (COMPASS) is a multi-purpose fixed-target experiment at the CERN Super Proton Synchrotron (SPS) aimed at studying the structure and spectrum of hadrons. The two-stage spectrometer has a good acceptance for charged as well as neutral particles over a wide kinematic range and is thus able to measure a wide range of reactions. Light mesons are studied with negative (mostly π−) and positive (p, π+) hadron beams with a momentum of 190 GeV/c. The light-meson spectrum is investigated in various final states produced in diffractive dissociation reactions at squared four-momentum transfers to the target between 0.1 and 1.0 (GeV/c)2. The flagship channel is the π−π+π− final state, for which COMPASS has recorded the currently largest data sample. These data not only allow for measuring the properties of known resonances with high precision, but also for searching for new states. Among these is a new resonance-like signal, the a1(1420), with unusual properties. The findings are confirmed by the analysis of the π−π0π0 final state. Possible bias introduced by the parametrizations used to describe the ππ S-wave is studied using a novel analysis technique, which extracts the amplitude of the π+π− sub-system as a function of 3π mass from the data. Of particular interest is the resonance content of the partial wave with spin-exotic JPC = 1−+ quantum numbers, which are forbidden for quark-antiquark states. This wave is studied in the two 3π channels. Further insight is gained by studying diffractively produced π−η or π−η′ final states.The COmmon Muon and Proton Apparatus for Structure and Spectroscopy (COMPASS) is a multi-purpose fixed-target experiment at the CERN Super Proton Synchrotron (SPS) aimed at studying the structure and spectrum of hadrons. The two-stage spectrometer has a good acceptance for charged as well as neutral particles over a wide kinematic range and is thus able to measure a wide range of reactions. Light mesons are studied with negative (mostly $\pi^-$) and positive ($p$, $\pi^+$) hadron beams with a momentum of 190 GeV/$c$. The light-meson spectrum is investigated in various final states produced in diffractive dissociation reactions at squared four-momentum transfers to the target between 0.1 and 1.0 (GeV/$c$)$^2$. The flagship channel is the $\pi^-\pi^+\pi^-$ final state, for which COMPASS has recorded the currently largest data sample. These data not only allow for measuring the properties of known resonances with high precision, but also for searching for new states. Among these is a new resonance-like signal, the $a_1(1420)$, with unusual properties. The findings are confirmed by the analysis of the $\pi^-\pi^0\pi^0$ final state. Possible bias introduced by the parametrizations used to describe the $\pi\pi$ $S$-wave is studied using a novel analysis technique, which extracts the amplitude of the $\pi^+\pi^-$ sub-system as a function of $3\pi$ mass from the data. Of particular interest is the resonance content of the partial wave with spin-exotic $J^{PC} = 1^{-+}$ quantum numbers, which are forbidden for quark-antiquark states. This wave is studied in the two $3\pi$ channels. Further insight is gained by studying diffractively produced $\pi^-\eta$ or $\pi^-\eta'$ final states.arXiv:1512.03599oai:cds.cern.ch:21133522015-12-11 |
| spellingShingle | Particle Physics - Experiment Particle Physics - Phenomenology Particle Physics - Experiment Grube, Boris Recent Results on Spectroscopy from COMPASS |
| title | Recent Results on Spectroscopy from COMPASS |
| title_full | Recent Results on Spectroscopy from COMPASS |
| title_fullStr | Recent Results on Spectroscopy from COMPASS |
| title_full_unstemmed | Recent Results on Spectroscopy from COMPASS |
| title_short | Recent Results on Spectroscopy from COMPASS |
| title_sort | recent results on spectroscopy from compass |
| topic | Particle Physics - Experiment Particle Physics - Phenomenology Particle Physics - Experiment |
| url | https://dx.doi.org/10.1063/1.4949375 http://cds.cern.ch/record/2113352 |
| work_keys_str_mv | AT grubeboris recentresultsonspectroscopyfromcompass |