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Perspectives for quarkonium studies at the high-luminosity LHC
We review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2020
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/j.ppnp.2021.103906 http://cds.cern.ch/record/2750506 |
| _version_ | 1780969105576165376 |
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| author | Chapon, Emilien d'Enterria, David Ducloue, Bertrand Echevarria, Miguel G. Gossiaux, Pol-Bernard Kartvelishvili, Vato Kasemets, Tomas Lansberg, Jean-Philippe McNulty, Ronan Price, Darren D. Shao, Hua-Sheng Van Hulse, Charlotte Winn, Michael Adam, Jaroslav An, Liupan Villar, Denys Yen Arrebato Bhattacharya, Shohini Celiberto, Francesco G. Cheshkov, Cvetan D'Alesio, Umberto da Silva, Cesar Ferreiro, Elena G. Flett, Chris A. Flore, Carlo Garzelli, Maria Vittoria Gaunt, Jonathan He, Jibo Makris, Yiannis Marquet, Cyrille Massacrier, Laure Mehen, Thomas Mezrag, Cedric Micheletti, Luca Nagar, Riccardo Nefedov, Maxim A. Ozcelik, Melih A. Paul, Biswarup Pisano, Cristian Qiu, Jian-Wei Rajesh, Sangem Rinaldi, Matteo Scarpa, Florent Smith, Maddie Taels, Pieter Tee, Amy Teryaev, Oleg Vitev, Ivan Watanabe, Kazuhiro Yamanaka, Nodoka Yao, Xiaojun Zhang, Yanxi |
| author_facet | Chapon, Emilien d'Enterria, David Ducloue, Bertrand Echevarria, Miguel G. Gossiaux, Pol-Bernard Kartvelishvili, Vato Kasemets, Tomas Lansberg, Jean-Philippe McNulty, Ronan Price, Darren D. Shao, Hua-Sheng Van Hulse, Charlotte Winn, Michael Adam, Jaroslav An, Liupan Villar, Denys Yen Arrebato Bhattacharya, Shohini Celiberto, Francesco G. Cheshkov, Cvetan D'Alesio, Umberto da Silva, Cesar Ferreiro, Elena G. Flett, Chris A. Flore, Carlo Garzelli, Maria Vittoria Gaunt, Jonathan He, Jibo Makris, Yiannis Marquet, Cyrille Massacrier, Laure Mehen, Thomas Mezrag, Cedric Micheletti, Luca Nagar, Riccardo Nefedov, Maxim A. Ozcelik, Melih A. Paul, Biswarup Pisano, Cristian Qiu, Jian-Wei Rajesh, Sangem Rinaldi, Matteo Scarpa, Florent Smith, Maddie Taels, Pieter Tee, Amy Teryaev, Oleg Vitev, Ivan Watanabe, Kazuhiro Yamanaka, Nodoka Yao, Xiaojun Zhang, Yanxi |
| author_sort | Chapon, Emilien |
| collection | CERN |
| description | We review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address the current experimental and theoretical open issues in the field and the perspectives for future studies in quarkonium-related physics through the exploitation of the huge data samples to be collected in proton-proton, with integrated luminosities reaching up to 3/ab, in proton-nucleus and in nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) the quarkonia produced in association with other hard particles; (ii) the chi(Q) and eta(Q) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings. |
| id | cern-2750506 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2020 |
| record_format | invenio |
| spelling | cern-27505062023-10-26T06:41:46Zdoi:10.1016/j.ppnp.2021.103906http://cds.cern.ch/record/2750506engChapon, Emiliend'Enterria, DavidDucloue, BertrandEchevarria, Miguel G.Gossiaux, Pol-BernardKartvelishvili, VatoKasemets, TomasLansberg, Jean-PhilippeMcNulty, RonanPrice, Darren D.Shao, Hua-ShengVan Hulse, CharlotteWinn, MichaelAdam, JaroslavAn, LiupanVillar, Denys Yen ArrebatoBhattacharya, ShohiniCeliberto, Francesco G.Cheshkov, CvetanD'Alesio, Umbertoda Silva, CesarFerreiro, Elena G.Flett, Chris A.Flore, CarloGarzelli, Maria VittoriaGaunt, JonathanHe, JiboMakris, YiannisMarquet, CyrilleMassacrier, LaureMehen, ThomasMezrag, CedricMicheletti, LucaNagar, RiccardoNefedov, Maxim A.Ozcelik, Melih A.Paul, BiswarupPisano, CristianQiu, Jian-WeiRajesh, SangemRinaldi, MatteoScarpa, FlorentSmith, MaddieTaels, PieterTee, AmyTeryaev, OlegVitev, IvanWatanabe, KazuhiroYamanaka, NodokaYao, XiaojunZhang, YanxiPerspectives for quarkonium studies at the high-luminosity LHCnucl-thNuclear Physics - Theorynucl-exNuclear Physics - Experimenthep-exParticle Physics - Experimenthep-phParticle Physics - PhenomenologyWe review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address the current experimental and theoretical open issues in the field and the perspectives for future studies in quarkonium-related physics through the exploitation of the huge data samples to be collected in proton-proton, with integrated luminosities reaching up to 3/ab, in proton-nucleus and in nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) the quarkonia produced in association with other hard particles; (ii) the chi(Q) and eta(Q) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.We review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address the current experimental and theoretical open issues in the field and the perspectives for future studies in quarkonium-related physics through the exploitation of the huge data samples to be collected in proton-proton, with integrated luminosities reaching up to 3/ab, in proton-nucleus and in nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) the quarkonia produced in association with other hard particles; (ii) the chi(Q) and eta(Q) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.We review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address the current experimental and theoretical open issues in the field and the perspectives for future studies in quarkonium-related physics through the exploitation of the huge data samples to be collected in proton-proton, with integrated luminosities reaching up to 3/ab, in proton-nucleus and in nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) the quarkonia produced in association with other hard particles; (ii) the chi(Q) and eta(Q) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.We review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address the current experimental and theoretical open issues in the field and the perspectives for future studies in quarkonium-related physics through the exploitation of the huge data samples to be collected in proton-proton, with integrated luminosities reaching up to 3/ab, in proton-nucleus and in nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) the quarkonia produced in association with other hard particles; (ii) the chi(Q) and eta(Q) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.We review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address the current experimental and theoretical open issues in the field and the perspectives for future studies in quarkonium-related physics through the exploitation of the huge data samples to be collected in proton-proton, with integrated luminosities reaching up to 3/ab, in proton-nucleus and in nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) the quarkonia produced in association with other hard particles; (ii) the chi(Q) and eta(Q) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.We review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address the current experimental and theoretical open issues in the field and the perspectives for future studies in quarkonium-related physics through the exploitation of the huge data samples to be collected in proton-proton, with integrated luminosities reaching up to 3/ab, in proton-nucleus and in nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) the quarkonia produced in association with other hard particles; (ii) the chi(Q) and eta(Q) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.We review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address the current experimental and theoretical open issues in the field and the perspectives for future studies in quarkonium-related physics through the exploitation of the huge data samples to be collected in proton-proton, with integrated luminosities reaching up to 3/ab, in proton-nucleus and in nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) the quarkonia produced in association with other hard particles; (ii) the chi(Q) and eta(Q) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.We review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address the current experimental and theoretical open issues in the field and the perspectives for future studies in quarkonium-related physics through the exploitation of the huge data samples to be collected in proton-proton, with integrated luminosities reaching up to 3/ab, in proton-nucleus and in nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) the quarkonia produced in association with other hard particles; (ii) the chi(Q) and eta(Q) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.Prospects for quarkonium-production studies accessible during the upcoming high-luminosity phases of the CERN Large Hadron Collider operation after 2021 are reviewed. Current experimental and theoretical open issues in the field are assessed together with the potential for future studies in quarkonium-related physics. This will be possible through the exploitation of the huge data samples to be collected in proton–proton, proton–nucleus and nucleus–nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) <math display="inline" id="d1e8603" altimg="si149.svg"><mrow><mi>J</mi><mo>/</mo><mi>ψ</mi></mrow></math> and <math display="inline" id="d1e8613" altimg="si276.svg"><mi>Υ</mi></math> produced in association with other hard particles; (ii) <math display="inline" id="d1e8618" altimg="si3.svg"><msub><mrow><mi>χ</mi></mrow><mrow><mi>c</mi><mo>,</mo><mi>b</mi></mrow></msub></math> and <math display="inline" id="d1e8633" altimg="si4.svg"><msub><mrow><mi>η</mi></mrow><mrow><mi>c</mi><mo>,</mo><mi>b</mi></mrow></msub></math> down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-<math display="inline" id="d1e8647" altimg="si5.svg"><mi>x</mi></math> parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark–gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.We review the prospects for quarkonium-production studies in proton and nuclear collisions accessible during the upcoming phases of the CERN Large Hadron Collider operation after 2021, including the ultimate high-luminosity phase, with increased luminosities compared to LHC Runs 1 and 2. We address the current experimental and theoretical open issues in the field and the perspectives for future studies in quarkonium-related physics through the exploitation of the huge data samples to be collected in proton-proton, with integrated luminosities reaching up to 3/ab, in proton-nucleus and in nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) the quarkonia produced in association with other hard particles; (ii) the chi(Q) and eta(Q) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.Prospects for quarkonium-production studies accessible during the upcoming high-luminosity phases of the CERN Large Hadron Collider operation after 2021 are reviewed. Current experimental and theoretical open issues in the field are assessed together with the potential for future studies in quarkonium-related physics. This will be possible through the exploitation of the huge data samples to be collected in proton-proton, proton-nucleus and nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) J/psi and Upsilon produced in association with other hard particles; (ii) chi(c,b) and eta(c,b) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings.arXiv:2012.14161MIT-CTP/5231JLAB-THY-20-3240oai:cds.cern.ch:27505062020-12-28 |
| spellingShingle | nucl-th Nuclear Physics - Theory nucl-ex Nuclear Physics - Experiment hep-ex Particle Physics - Experiment hep-ph Particle Physics - Phenomenology Chapon, Emilien d'Enterria, David Ducloue, Bertrand Echevarria, Miguel G. Gossiaux, Pol-Bernard Kartvelishvili, Vato Kasemets, Tomas Lansberg, Jean-Philippe McNulty, Ronan Price, Darren D. Shao, Hua-Sheng Van Hulse, Charlotte Winn, Michael Adam, Jaroslav An, Liupan Villar, Denys Yen Arrebato Bhattacharya, Shohini Celiberto, Francesco G. Cheshkov, Cvetan D'Alesio, Umberto da Silva, Cesar Ferreiro, Elena G. Flett, Chris A. Flore, Carlo Garzelli, Maria Vittoria Gaunt, Jonathan He, Jibo Makris, Yiannis Marquet, Cyrille Massacrier, Laure Mehen, Thomas Mezrag, Cedric Micheletti, Luca Nagar, Riccardo Nefedov, Maxim A. Ozcelik, Melih A. Paul, Biswarup Pisano, Cristian Qiu, Jian-Wei Rajesh, Sangem Rinaldi, Matteo Scarpa, Florent Smith, Maddie Taels, Pieter Tee, Amy Teryaev, Oleg Vitev, Ivan Watanabe, Kazuhiro Yamanaka, Nodoka Yao, Xiaojun Zhang, Yanxi Perspectives for quarkonium studies at the high-luminosity LHC |
| title | Perspectives for quarkonium studies at the high-luminosity LHC |
| title_full | Perspectives for quarkonium studies at the high-luminosity LHC |
| title_fullStr | Perspectives for quarkonium studies at the high-luminosity LHC |
| title_full_unstemmed | Perspectives for quarkonium studies at the high-luminosity LHC |
| title_short | Perspectives for quarkonium studies at the high-luminosity LHC |
| title_sort | perspectives for quarkonium studies at the high-luminosity lhc |
| topic | nucl-th Nuclear Physics - Theory nucl-ex Nuclear Physics - Experiment hep-ex Particle Physics - Experiment hep-ph Particle Physics - Phenomenology |
| url | https://dx.doi.org/10.1016/j.ppnp.2021.103906 http://cds.cern.ch/record/2750506 |
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