Insights from the ALICE quark-gluon coloured world at the LHC
Summary Interactions among heavy ions at the CERN LHC collider recreate the state of matter as it was a few micro-seconds after the Big Bang: the Quark Gluon Coloured World (QGCW). At a centre-of-mass energy of 2.76 TeV the produced QGCW reaches unprecedented temperatures, volumes and durations allo...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Cifarelli, L. [verfasserIn] |
|---|
| Format: |
Artikel |
|---|---|
| Sprache: |
Englisch |
| Erschienen: |
2016 |
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| Anmerkung: |
© Italian Physical Society 2016 |
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| Übergeordnetes Werk: |
Enthalten in: La Rivista del Nuovo Cimento - Società Italiana di Fisica, 1971, 39(2016), 10 vom: Okt., Seite 497-545 |
|---|---|
| Übergeordnetes Werk: |
volume:39 ; year:2016 ; number:10 ; month:10 ; pages:497-545 |
| Links: |
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| DOI / URN: |
10.1393/ncr/i2016-10128-0 |
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| 520 | |a Summary Interactions among heavy ions at the CERN LHC collider recreate the state of matter as it was a few micro-seconds after the Big Bang: the Quark Gluon Coloured World (QGCW). At a centre-of-mass energy of 2.76 TeV the produced QGCW reaches unprecedented temperatures, volumes and durations allowing more refined studies of its properties. Data collected during LHC Run1 (from 2010 to 2013) already provided new and sometimes unexpected results, and pointed to intriguing similarities among high multiplicity events produced in different colliding systems, namely pp, p-Pb and Pb-Pb. A comprehensive review of these results is presented, showing how heavy-ion physics is a powerful tool to shed light on QCD in such extreme conditions when multiple phase transitions should occur to go from the QGCW to our present non-coloured world. | ||
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10.1393/ncr/i2016-10128-0 doi (DE-627)OLC2117147577 (DE-He213)i2016-10128-0-p DE-627 ger DE-627 rakwb eng 530 VZ Cifarelli, L. verfasserin aut Insights from the ALICE quark-gluon coloured world at the LHC 2016 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier © Italian Physical Society 2016 Summary Interactions among heavy ions at the CERN LHC collider recreate the state of matter as it was a few micro-seconds after the Big Bang: the Quark Gluon Coloured World (QGCW). At a centre-of-mass energy of 2.76 TeV the produced QGCW reaches unprecedented temperatures, volumes and durations allowing more refined studies of its properties. Data collected during LHC Run1 (from 2010 to 2013) already provided new and sometimes unexpected results, and pointed to intriguing similarities among high multiplicity events produced in different colliding systems, namely pp, p-Pb and Pb-Pb. A comprehensive review of these results is presented, showing how heavy-ion physics is a powerful tool to shed light on QCD in such extreme conditions when multiple phase transitions should occur to go from the QGCW to our present non-coloured world. Nania, R. aut Noferini, F. aut Scapparone, E. aut Zichichi, A. aut Enthalten in La Rivista del Nuovo Cimento Società Italiana di Fisica, 1971 39(2016), 10 vom: Okt., Seite 497-545 (DE-627)129332941 (DE-600)136084-X (DE-576)014596172 0035-5917 nnns volume:39 year:2016 number:10 month:10 pages:497-545 https://doi.org/10.1393/ncr/i2016-10128-0 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-PHY AR 39 2016 10 10 497-545 |
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10.1393/ncr/i2016-10128-0 doi (DE-627)OLC2117147577 (DE-He213)i2016-10128-0-p DE-627 ger DE-627 rakwb eng 530 VZ Cifarelli, L. verfasserin aut Insights from the ALICE quark-gluon coloured world at the LHC 2016 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier © Italian Physical Society 2016 Summary Interactions among heavy ions at the CERN LHC collider recreate the state of matter as it was a few micro-seconds after the Big Bang: the Quark Gluon Coloured World (QGCW). At a centre-of-mass energy of 2.76 TeV the produced QGCW reaches unprecedented temperatures, volumes and durations allowing more refined studies of its properties. Data collected during LHC Run1 (from 2010 to 2013) already provided new and sometimes unexpected results, and pointed to intriguing similarities among high multiplicity events produced in different colliding systems, namely pp, p-Pb and Pb-Pb. A comprehensive review of these results is presented, showing how heavy-ion physics is a powerful tool to shed light on QCD in such extreme conditions when multiple phase transitions should occur to go from the QGCW to our present non-coloured world. Nania, R. aut Noferini, F. aut Scapparone, E. aut Zichichi, A. aut Enthalten in La Rivista del Nuovo Cimento Società Italiana di Fisica, 1971 39(2016), 10 vom: Okt., Seite 497-545 (DE-627)129332941 (DE-600)136084-X (DE-576)014596172 0035-5917 nnns volume:39 year:2016 number:10 month:10 pages:497-545 https://doi.org/10.1393/ncr/i2016-10128-0 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-PHY AR 39 2016 10 10 497-545 |
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10.1393/ncr/i2016-10128-0 doi (DE-627)OLC2117147577 (DE-He213)i2016-10128-0-p DE-627 ger DE-627 rakwb eng 530 VZ Cifarelli, L. verfasserin aut Insights from the ALICE quark-gluon coloured world at the LHC 2016 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier © Italian Physical Society 2016 Summary Interactions among heavy ions at the CERN LHC collider recreate the state of matter as it was a few micro-seconds after the Big Bang: the Quark Gluon Coloured World (QGCW). At a centre-of-mass energy of 2.76 TeV the produced QGCW reaches unprecedented temperatures, volumes and durations allowing more refined studies of its properties. Data collected during LHC Run1 (from 2010 to 2013) already provided new and sometimes unexpected results, and pointed to intriguing similarities among high multiplicity events produced in different colliding systems, namely pp, p-Pb and Pb-Pb. A comprehensive review of these results is presented, showing how heavy-ion physics is a powerful tool to shed light on QCD in such extreme conditions when multiple phase transitions should occur to go from the QGCW to our present non-coloured world. Nania, R. aut Noferini, F. aut Scapparone, E. aut Zichichi, A. aut Enthalten in La Rivista del Nuovo Cimento Società Italiana di Fisica, 1971 39(2016), 10 vom: Okt., Seite 497-545 (DE-627)129332941 (DE-600)136084-X (DE-576)014596172 0035-5917 nnns volume:39 year:2016 number:10 month:10 pages:497-545 https://doi.org/10.1393/ncr/i2016-10128-0 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-PHY AR 39 2016 10 10 497-545 |
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10.1393/ncr/i2016-10128-0 doi (DE-627)OLC2117147577 (DE-He213)i2016-10128-0-p DE-627 ger DE-627 rakwb eng 530 VZ Cifarelli, L. verfasserin aut Insights from the ALICE quark-gluon coloured world at the LHC 2016 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier © Italian Physical Society 2016 Summary Interactions among heavy ions at the CERN LHC collider recreate the state of matter as it was a few micro-seconds after the Big Bang: the Quark Gluon Coloured World (QGCW). At a centre-of-mass energy of 2.76 TeV the produced QGCW reaches unprecedented temperatures, volumes and durations allowing more refined studies of its properties. Data collected during LHC Run1 (from 2010 to 2013) already provided new and sometimes unexpected results, and pointed to intriguing similarities among high multiplicity events produced in different colliding systems, namely pp, p-Pb and Pb-Pb. A comprehensive review of these results is presented, showing how heavy-ion physics is a powerful tool to shed light on QCD in such extreme conditions when multiple phase transitions should occur to go from the QGCW to our present non-coloured world. Nania, R. aut Noferini, F. aut Scapparone, E. aut Zichichi, A. aut Enthalten in La Rivista del Nuovo Cimento Società Italiana di Fisica, 1971 39(2016), 10 vom: Okt., Seite 497-545 (DE-627)129332941 (DE-600)136084-X (DE-576)014596172 0035-5917 nnns volume:39 year:2016 number:10 month:10 pages:497-545 https://doi.org/10.1393/ncr/i2016-10128-0 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-PHY AR 39 2016 10 10 497-545 |
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Summary Interactions among heavy ions at the CERN LHC collider recreate the state of matter as it was a few micro-seconds after the Big Bang: the Quark Gluon Coloured World (QGCW). At a centre-of-mass energy of 2.76 TeV the produced QGCW reaches unprecedented temperatures, volumes and durations allowing more refined studies of its properties. Data collected during LHC Run1 (from 2010 to 2013) already provided new and sometimes unexpected results, and pointed to intriguing similarities among high multiplicity events produced in different colliding systems, namely pp, p-Pb and Pb-Pb. A comprehensive review of these results is presented, showing how heavy-ion physics is a powerful tool to shed light on QCD in such extreme conditions when multiple phase transitions should occur to go from the QGCW to our present non-coloured world. © Italian Physical Society 2016 |
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Summary Interactions among heavy ions at the CERN LHC collider recreate the state of matter as it was a few micro-seconds after the Big Bang: the Quark Gluon Coloured World (QGCW). At a centre-of-mass energy of 2.76 TeV the produced QGCW reaches unprecedented temperatures, volumes and durations allowing more refined studies of its properties. Data collected during LHC Run1 (from 2010 to 2013) already provided new and sometimes unexpected results, and pointed to intriguing similarities among high multiplicity events produced in different colliding systems, namely pp, p-Pb and Pb-Pb. A comprehensive review of these results is presented, showing how heavy-ion physics is a powerful tool to shed light on QCD in such extreme conditions when multiple phase transitions should occur to go from the QGCW to our present non-coloured world. © Italian Physical Society 2016 |
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Summary Interactions among heavy ions at the CERN LHC collider recreate the state of matter as it was a few micro-seconds after the Big Bang: the Quark Gluon Coloured World (QGCW). At a centre-of-mass energy of 2.76 TeV the produced QGCW reaches unprecedented temperatures, volumes and durations allowing more refined studies of its properties. Data collected during LHC Run1 (from 2010 to 2013) already provided new and sometimes unexpected results, and pointed to intriguing similarities among high multiplicity events produced in different colliding systems, namely pp, p-Pb and Pb-Pb. A comprehensive review of these results is presented, showing how heavy-ion physics is a powerful tool to shed light on QCD in such extreme conditions when multiple phase transitions should occur to go from the QGCW to our present non-coloured world. © Italian Physical Society 2016 |
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