Assessing saturation physics explanations of collectivity in small collision systems with the ip-jazma model Article Swipe

View

YOU? · · 2019 · Open Access · · DOI: https://doi.org/10.1103/physrevc.99.054908

Experimental measurements in relativistic collisions of small systems from $p + p$ to $p/d/ ^3He + A$ at the Relativistic Heavy Ion Collider (RHIC) and the Large Hadron Collider (LHC) reveal particle emission patterns that are strikingly similar to those observed in $A + A$ collisions of large nuclei. One explanation of these patterns is the formation of small droplets of quark-gluon plasma (QGP) followed by hydrodynamic evolution. A geometry engineering program was proposed to further investigate these emission patterns, and the experimental data from that program in $p + Au, d + Au, ^3 He + Au$ collisions for elliptic and triangular anisotropy coefficients $v_2$ and $v_3$ follow the pattern predicted by hydrodynamic calculations [C. Aidala et al. (PHENIX Collaboration), Nat. Phys. 15, 214 (2019)]. One alternative approach, referred to as initial-state correlations, suggests that for small systems the patterns observed in the final-state hadrons are encoded at the earliest moments of the collision and therefore require no final-state parton scattering or hydrodynamic evolution. Recently, new calculations using only initial-state correlations, in the dilute-dense approximation of gluon saturation physics, reported striking agreement with the $v_2$ patterns observed in $p/d/ ^3He + Au$ data at RHIC [M. Mace, V. V. Skokov, P. Tribedy, and R. Venugopalan, Phys. Rev. Lett. 121, 052301 (2018)]. The results reported by Mace, Skokov, Tribedy and Venugopalan (MSTV) are counterintuitive and thus we aim here to reproduce some of the basic features of these calculations. In this first investigation, we provide a description of our publicly available model, ip-jazma, and investigate its implications for saturation scales, multiplicity distributions, and eccentricities, reserving for later work the analysis of momentum spectra and azimuthal anisotropies. We find that our implementation of the saturation physics model reproduces the results of the MSTV calculation of the multiplicity distribution in $d + Au$ collisions at RHIC. However, additional aspects of studies, together with existing data, call into question some of the essential elements reported by MSTV. Resolution of these issues will require further developments of ip-jazma, in order to determine if it can replicate the qualitative agreement with the $v_2$ reported by MSTV. Both the work reported here and future studies will establish which features in the experimental data are uniquely attributable to the color glass condensate description.

Related Topics

Large Hadron Collider

Concepts

Physics Quark–gluon plasma Hadron Anisotropy Large Hadron Collider Saturation (graph theory) Nuclear physics Particle physics Scattering Gluon Quantum chromodynamics Quantum mechanics Mathematics Combinatorics

Metadata

Type: article
Language: en
Landing Page: https://doi.org/10.1103/physrevc.99.054908
OA Status: green
Cited By: 30
References: 43
Related Works: 10
OpenAlex ID: https://openalex.org/W2886425002

All OpenAlex metadata

Raw OpenAlex JSON

OpenAlex ID: https://openalex.org/W2886425002

Canonical identifier for this work in OpenAlex
DOI: https://doi.org/10.1103/physrevc.99.054908

Digital Object Identifier
Title: Assessing saturation physics explanations of collectivity in small collision systems with the ip-jazma model

Work title
Type: article

OpenAlex work type
Language: en

Primary language
Publication year: 2019

Year of publication
Publication date: 2019-05-28

Full publication date if available
Authors: J. L. Nagle, W. A. Zajc

List of authors in order
Landing page: https://doi.org/10.1103/physrevc.99.054908

Publisher landing page
Open access: Yes

Whether a free full text is available
OA status: green

Open access status per OpenAlex
OA URL: https://arxiv.org/pdf/1808.01276

Direct OA link when available
Concepts: Physics, Quark–gluon plasma, Hadron, Anisotropy, Large Hadron Collider, Saturation (graph theory), Nuclear physics, Particle physics, Scattering, Gluon, Quantum chromodynamics, Quantum mechanics, Mathematics, Combinatorics

Top concepts (fields/topics) attached by OpenAlex
Cited by: 30

Total citation count in OpenAlex
Citations by year (recent): 2024: 1, 2023: 3, 2022: 4, 2021: 9, 2020: 6

Per-year citation counts (last 5 years)
References (count): 43

Number of works referenced by this work
Related works (count): 10

Other works algorithmically related by OpenAlex

Full payload

id	https://openalex.org/W2886425002
doi	https://doi.org/10.1103/physrevc.99.054908
ids.doi	https://doi.org/10.1103/physrevc.99.054908
ids.mag	2886425002
ids.openalex	https://openalex.org/W2886425002
fwci	3.78416508
type	article
title	Assessing saturation physics explanations of collectivity in small collision systems with the ip-jazma model
awards[0].id	https://openalex.org/G8280372471
awards[0].funder_id	https://openalex.org/F4320306084
awards[0].display_name
awards[0].funder_award_id	DE-FG02-86ER40281
awards[0].funder_display_name	U.S. Department of Energy
awards[1].id	https://openalex.org/G2614713097
awards[1].funder_id	https://openalex.org/F4320306084
awards[1].display_name
awards[1].funder_award_id	DE-FG02-00ER41152
awards[1].funder_display_name	U.S. Department of Energy
biblio.issue	5
biblio.volume	99
biblio.last_page
biblio.first_page
topics[0].id	https://openalex.org/T10527
topics[0].field.id	https://openalex.org/fields/31
topics[0].field.display_name	Physics and Astronomy
topics[0].score	1.0
topics[0].domain.id	https://openalex.org/domains/3
topics[0].domain.display_name	Physical Sciences
topics[0].subfield.id	https://openalex.org/subfields/3106
topics[0].subfield.display_name	Nuclear and High Energy Physics
topics[0].display_name	High-Energy Particle Collisions Research
topics[1].id	https://openalex.org/T10048
topics[1].field.id	https://openalex.org/fields/31
topics[1].field.display_name	Physics and Astronomy
topics[1].score	0.9958999752998352
topics[1].domain.id	https://openalex.org/domains/3
topics[1].domain.display_name	Physical Sciences
topics[1].subfield.id	https://openalex.org/subfields/3106
topics[1].subfield.display_name	Nuclear and High Energy Physics
topics[1].display_name	Particle physics theoretical and experimental studies
topics[2].id	https://openalex.org/T10224
topics[2].field.id	https://openalex.org/fields/31
topics[2].field.display_name	Physics and Astronomy
topics[2].score	0.9951000213623047
topics[2].domain.id	https://openalex.org/domains/3
topics[2].domain.display_name	Physical Sciences
topics[2].subfield.id	https://openalex.org/subfields/3106
topics[2].subfield.display_name	Nuclear and High Energy Physics
topics[2].display_name	Quantum Chromodynamics and Particle Interactions
funders[0].id	https://openalex.org/F4320306084
funders[0].ror	https://ror.org/01bj3aw27
funders[0].display_name	U.S. Department of Energy
is_xpac	False
apc_list.value	2675
apc_list.currency	USD
apc_list.value_usd	2675
apc_paid
concepts[0].id	https://openalex.org/C121332964
concepts[0].level	0
concepts[0].score	0.8908611536026001
concepts[0].wikidata	https://www.wikidata.org/wiki/Q413
concepts[0].display_name	Physics
concepts[1].id	https://openalex.org/C2292967
concepts[1].level	3
concepts[1].score	0.5754778385162354
concepts[1].wikidata	https://www.wikidata.org/wiki/Q733096
concepts[1].display_name	Quark–gluon plasma
concepts[2].id	https://openalex.org/C19694890
concepts[2].level	2
concepts[2].score	0.5690223574638367
concepts[2].wikidata	https://www.wikidata.org/wiki/Q101667
concepts[2].display_name	Hadron
concepts[3].id	https://openalex.org/C85725439
concepts[3].level	2
concepts[3].score	0.4925907254219055
concepts[3].wikidata	https://www.wikidata.org/wiki/Q466686
concepts[3].display_name	Anisotropy
concepts[4].id	https://openalex.org/C87668248
concepts[4].level	2
concepts[4].score	0.486145943403244
concepts[4].wikidata	https://www.wikidata.org/wiki/Q40605
concepts[4].display_name	Large Hadron Collider
concepts[5].id	https://openalex.org/C9930424
concepts[5].level	2
concepts[5].score	0.4425174593925476
concepts[5].wikidata	https://www.wikidata.org/wiki/Q7426587
concepts[5].display_name	Saturation (graph theory)
concepts[6].id	https://openalex.org/C185544564
concepts[6].level	1
concepts[6].score	0.4389575719833374
concepts[6].wikidata	https://www.wikidata.org/wiki/Q81197
concepts[6].display_name	Nuclear physics
concepts[7].id	https://openalex.org/C109214941
concepts[7].level	1
concepts[7].score	0.4272097945213318
concepts[7].wikidata	https://www.wikidata.org/wiki/Q18334
concepts[7].display_name	Particle physics
concepts[8].id	https://openalex.org/C191486275
concepts[8].level	2
concepts[8].score	0.42215844988822937
concepts[8].wikidata	https://www.wikidata.org/wiki/Q210028
concepts[8].display_name	Scattering
concepts[9].id	https://openalex.org/C123579102
concepts[9].level	3
concepts[9].score	0.41896340250968933
concepts[9].wikidata	https://www.wikidata.org/wiki/Q3299
concepts[9].display_name	Gluon
concepts[10].id	https://openalex.org/C117137515
concepts[10].level	2
concepts[10].score	0.34834742546081543
concepts[10].wikidata	https://www.wikidata.org/wiki/Q238170
concepts[10].display_name	Quantum chromodynamics
concepts[11].id	https://openalex.org/C62520636
concepts[11].level	1
concepts[11].score	0.09281730651855469
concepts[11].wikidata	https://www.wikidata.org/wiki/Q944
concepts[11].display_name	Quantum mechanics
concepts[12].id	https://openalex.org/C33923547
concepts[12].level	0
concepts[12].score	0.0
concepts[12].wikidata	https://www.wikidata.org/wiki/Q395
concepts[12].display_name	Mathematics
concepts[13].id	https://openalex.org/C114614502
concepts[13].level	1
concepts[13].score	0.0
concepts[13].wikidata	https://www.wikidata.org/wiki/Q76592
concepts[13].display_name	Combinatorics
keywords[0].id	https://openalex.org/keywords/physics
keywords[0].score	0.8908611536026001
keywords[0].display_name	Physics
keywords[1].id	https://openalex.org/keywords/quark–gluon-plasma
keywords[1].score	0.5754778385162354
keywords[1].display_name	Quark–gluon plasma
keywords[2].id	https://openalex.org/keywords/hadron
keywords[2].score	0.5690223574638367
keywords[2].display_name	Hadron
keywords[3].id	https://openalex.org/keywords/anisotropy
keywords[3].score	0.4925907254219055
keywords[3].display_name	Anisotropy
keywords[4].id	https://openalex.org/keywords/large-hadron-collider
keywords[4].score	0.486145943403244
keywords[4].display_name	Large Hadron Collider
keywords[5].id	https://openalex.org/keywords/saturation
keywords[5].score	0.4425174593925476
keywords[5].display_name	Saturation (graph theory)
keywords[6].id	https://openalex.org/keywords/nuclear-physics
keywords[6].score	0.4389575719833374
keywords[6].display_name	Nuclear physics
keywords[7].id	https://openalex.org/keywords/particle-physics
keywords[7].score	0.4272097945213318
keywords[7].display_name	Particle physics
keywords[8].id	https://openalex.org/keywords/scattering
keywords[8].score	0.42215844988822937
keywords[8].display_name	Scattering
keywords[9].id	https://openalex.org/keywords/gluon
keywords[9].score	0.41896340250968933
keywords[9].display_name	Gluon
keywords[10].id	https://openalex.org/keywords/quantum-chromodynamics
keywords[10].score	0.34834742546081543
keywords[10].display_name	Quantum chromodynamics
keywords[11].id	https://openalex.org/keywords/quantum-mechanics
keywords[11].score	0.09281730651855469
keywords[11].display_name	Quantum mechanics
language	en
locations[0].id	doi:10.1103/physrevc.99.054908
locations[0].is_oa	False
locations[0].source.id	https://openalex.org/S118093565
locations[0].source.issn	2469-9985, 2469-9993, 2470-0002
locations[0].source.type	journal
locations[0].source.is_oa	False
locations[0].source.issn_l	2469-9985
locations[0].source.is_core	True
locations[0].source.is_in_doaj	False
locations[0].source.display_name	Physical review. C
locations[0].source.host_organization	https://openalex.org/P4310320261
locations[0].source.host_organization_name	American Physical Society
locations[0].source.host_organization_lineage	https://openalex.org/P4310320261
locations[0].source.host_organization_lineage_names	American Physical Society
locations[0].license
locations[0].pdf_url
locations[0].version	publishedVersion
locations[0].raw_type	journal-article
locations[0].license_id
locations[0].is_accepted	True
locations[0].is_published	True
locations[0].raw_source_name	Physical Review C
locations[0].landing_page_url	https://doi.org/10.1103/physrevc.99.054908
locations[1].id	pmh:oai:arXiv.org:1808.01276
locations[1].is_oa	True
locations[1].source.id	https://openalex.org/S4306400194
locations[1].source.issn
locations[1].source.type	repository
locations[1].source.is_oa	True
locations[1].source.issn_l
locations[1].source.is_core	False
locations[1].source.is_in_doaj	False
locations[1].source.display_name	arXiv (Cornell University)
locations[1].source.host_organization	https://openalex.org/I205783295
locations[1].source.host_organization_name	Cornell University
locations[1].source.host_organization_lineage	https://openalex.org/I205783295
locations[1].license
locations[1].pdf_url	https://arxiv.org/pdf/1808.01276
locations[1].version	submittedVersion
locations[1].raw_type	text
locations[1].license_id
locations[1].is_accepted	False
locations[1].is_published	False
locations[1].raw_source_name
locations[1].landing_page_url	http://arxiv.org/abs/1808.01276
locations[2].id	pmh:oai:HAL:hal-01861871v1
locations[2].is_oa	False
locations[2].source.id	https://openalex.org/S4306402512
locations[2].source.issn
locations[2].source.type	repository
locations[2].source.is_oa	False
locations[2].source.issn_l
locations[2].source.is_core	False
locations[2].source.is_in_doaj	False
locations[2].source.display_name	HAL (Le Centre pour la Communication Scientifique Directe)
locations[2].source.host_organization	https://openalex.org/I1294671590
locations[2].source.host_organization_name	Centre National de la Recherche Scientifique
locations[2].source.host_organization_lineage	https://openalex.org/I1294671590
locations[2].license
locations[2].pdf_url
locations[2].version	submittedVersion
locations[2].raw_type	info:eu-repo/semantics/article
locations[2].license_id
locations[2].is_accepted	False
locations[2].is_published	False
locations[2].raw_source_name	Phys.Rev.C
locations[2].landing_page_url	https://hal.science/hal-01861871
locations[3].id	pmh:oai:osti.gov:1518499
locations[3].is_oa	True
locations[3].source.id	https://openalex.org/S4306402487
locations[3].source.issn
locations[3].source.type	repository
locations[3].source.is_oa	False
locations[3].source.issn_l
locations[3].source.is_core	False
locations[3].source.is_in_doaj	False
locations[3].source.display_name	OSTI OAI (U.S. Department of Energy Office of Scientific and Technical Information)
locations[3].source.host_organization	https://openalex.org/I139351228
locations[3].source.host_organization_name	Office of Scientific and Technical Information
locations[3].source.host_organization_lineage	https://openalex.org/I139351228
locations[3].license
locations[3].pdf_url
locations[3].version	submittedVersion
locations[3].raw_type
locations[3].license_id
locations[3].is_accepted	False
locations[3].is_published	False
locations[3].raw_source_name
locations[3].landing_page_url	https://www.osti.gov/biblio/1518499
locations[4].id	pmh:oai:osti.gov:1609333
locations[4].is_oa	True
locations[4].source.id	https://openalex.org/S4306402487
locations[4].source.issn
locations[4].source.type	repository
locations[4].source.is_oa	False
locations[4].source.issn_l
locations[4].source.is_core	False
locations[4].source.is_in_doaj	False
locations[4].source.display_name	OSTI OAI (U.S. Department of Energy Office of Scientific and Technical Information)
locations[4].source.host_organization	https://openalex.org/I139351228
locations[4].source.host_organization_name	Office of Scientific and Technical Information
locations[4].source.host_organization_lineage	https://openalex.org/I139351228
locations[4].license
locations[4].pdf_url
locations[4].version	submittedVersion
locations[4].raw_type
locations[4].license_id
locations[4].is_accepted	False
locations[4].is_published	False
locations[4].raw_source_name
locations[4].landing_page_url	https://www.osti.gov/biblio/1609333
indexed_in	arxiv, crossref
authorships[0].author.id	https://openalex.org/A5051770680
authorships[0].author.orcid	https://orcid.org/0000-0003-0056-6613
authorships[0].author.display_name	J. L. Nagle
authorships[0].countries	FR, US
authorships[0].affiliations[0].institution_ids	https://openalex.org/I188538660, https://openalex.org/I2738703131, https://openalex.org/I4210128565, https://openalex.org/I4210163633
authorships[0].affiliations[0].raw_affiliation_string	Department of Physics, University of Colorado, Boulder Colorado 80309, USA and Institute of Theoretical Physics (IPhT), CEA-Saclay, F-91191 Gif-sur-Yvette cedex, France
authorships[0].institutions[0].id	https://openalex.org/I4210128565
authorships[0].institutions[0].ror	https://ror.org/03n15ch10
authorships[0].institutions[0].type	government
authorships[0].institutions[0].lineage	https://openalex.org/I2738703131, https://openalex.org/I277688954, https://openalex.org/I4210128565
authorships[0].institutions[0].country_code	FR
authorships[0].institutions[0].display_name	CEA Paris-Saclay
authorships[0].institutions[1].id	https://openalex.org/I2738703131
authorships[0].institutions[1].ror	https://ror.org/00jjx8s55
authorships[0].institutions[1].type	government
authorships[0].institutions[1].lineage	https://openalex.org/I2738703131
authorships[0].institutions[1].country_code	FR
authorships[0].institutions[1].display_name	Commissariat à l'Énergie Atomique et aux Énergies Alternatives
authorships[0].institutions[2].id	https://openalex.org/I4210163633
authorships[0].institutions[2].ror	https://ror.org/058rvd314
authorships[0].institutions[2].type	facility
authorships[0].institutions[2].lineage	https://openalex.org/I1294671590, https://openalex.org/I1294671590, https://openalex.org/I2738703131, https://openalex.org/I4210098836, https://openalex.org/I4210113668, https://openalex.org/I4210163633
authorships[0].institutions[2].country_code	FR
authorships[0].institutions[2].display_name	Institut de Physique Théorique
authorships[0].institutions[3].id	https://openalex.org/I188538660
authorships[0].institutions[3].ror	https://ror.org/02ttsq026
authorships[0].institutions[3].type	education
authorships[0].institutions[3].lineage	https://openalex.org/I188538660
authorships[0].institutions[3].country_code	US
authorships[0].institutions[3].display_name	University of Colorado Boulder
authorships[0].author_position	first
authorships[0].raw_author_name	J. L. Nagle
authorships[0].is_corresponding	False
authorships[0].raw_affiliation_strings	Department of Physics, University of Colorado, Boulder Colorado 80309, USA and Institute of Theoretical Physics (IPhT), CEA-Saclay, F-91191 Gif-sur-Yvette cedex, France
authorships[1].author.id	https://openalex.org/A5109128238
authorships[1].author.orcid
authorships[1].author.display_name	W. A. Zajc
authorships[1].countries	FR, US
authorships[1].affiliations[0].institution_ids	https://openalex.org/I188538660, https://openalex.org/I2738703131, https://openalex.org/I4210128565, https://openalex.org/I4210163633
authorships[1].affiliations[0].raw_affiliation_string	Department of Physics, University of Colorado, Boulder Colorado 80309, USA and Institute of Theoretical Physics (IPhT), CEA-Saclay, F-91191 Gif-sur-Yvette cedex, France
authorships[1].institutions[0].id	https://openalex.org/I4210128565
authorships[1].institutions[0].ror	https://ror.org/03n15ch10
authorships[1].institutions[0].type	government
authorships[1].institutions[0].lineage	https://openalex.org/I2738703131, https://openalex.org/I277688954, https://openalex.org/I4210128565
authorships[1].institutions[0].country_code	FR
authorships[1].institutions[0].display_name	CEA Paris-Saclay
authorships[1].institutions[1].id	https://openalex.org/I2738703131
authorships[1].institutions[1].ror	https://ror.org/00jjx8s55
authorships[1].institutions[1].type	government
authorships[1].institutions[1].lineage	https://openalex.org/I2738703131
authorships[1].institutions[1].country_code	FR
authorships[1].institutions[1].display_name	Commissariat à l'Énergie Atomique et aux Énergies Alternatives
authorships[1].institutions[2].id	https://openalex.org/I4210163633
authorships[1].institutions[2].ror	https://ror.org/058rvd314
authorships[1].institutions[2].type	facility
authorships[1].institutions[2].lineage	https://openalex.org/I1294671590, https://openalex.org/I1294671590, https://openalex.org/I2738703131, https://openalex.org/I4210098836, https://openalex.org/I4210113668, https://openalex.org/I4210163633
authorships[1].institutions[2].country_code	FR
authorships[1].institutions[2].display_name	Institut de Physique Théorique
authorships[1].institutions[3].id	https://openalex.org/I188538660
authorships[1].institutions[3].ror	https://ror.org/02ttsq026
authorships[1].institutions[3].type	education
authorships[1].institutions[3].lineage	https://openalex.org/I188538660
authorships[1].institutions[3].country_code	US
authorships[1].institutions[3].display_name	University of Colorado Boulder
authorships[1].author_position	last
authorships[1].raw_author_name	W. A. Zajc
authorships[1].is_corresponding	False
authorships[1].raw_affiliation_strings	Department of Physics, University of Colorado, Boulder Colorado 80309, USA and Institute of Theoretical Physics (IPhT), CEA-Saclay, F-91191 Gif-sur-Yvette cedex, France
has_content.pdf	False
has_content.grobid_xml	False
is_paratext	False
open_access.is_oa	True
open_access.oa_url	https://arxiv.org/pdf/1808.01276
open_access.oa_status	green
open_access.any_repository_has_fulltext	False
created_date	2018-08-22T00:00:00
display_name	Assessing saturation physics explanations of collectivity in small collision systems with the ip-jazma model
has_fulltext	False
is_retracted	False
updated_date	2025-11-06T03:46:38.306776
primary_topic.id	https://openalex.org/T10527
primary_topic.field.id	https://openalex.org/fields/31
primary_topic.field.display_name	Physics and Astronomy
primary_topic.score	1.0
primary_topic.domain.id	https://openalex.org/domains/3
primary_topic.domain.display_name	Physical Sciences
primary_topic.subfield.id	https://openalex.org/subfields/3106
primary_topic.subfield.display_name	Nuclear and High Energy Physics
primary_topic.display_name	High-Energy Particle Collisions Research
related_works	https://openalex.org/W2748952813, https://openalex.org/W2919860591, https://openalex.org/W2031643159, https://openalex.org/W4382984329, https://openalex.org/W2895132917, https://openalex.org/W1663255705, https://openalex.org/W2002502229, https://openalex.org/W2520201660, https://openalex.org/W4302042190, https://openalex.org/W2601324747
cited_by_count	30
counts_by_year[0].year	2024
counts_by_year[0].cited_by_count	1
counts_by_year[1].year	2023
counts_by_year[1].cited_by_count	3
counts_by_year[2].year	2022
counts_by_year[2].cited_by_count	4
counts_by_year[3].year	2021
counts_by_year[3].cited_by_count	9
counts_by_year[4].year	2020
counts_by_year[4].cited_by_count	6
counts_by_year[5].year	2019
counts_by_year[5].cited_by_count	6
counts_by_year[6].year	2018
counts_by_year[6].cited_by_count	1
locations_count	5
best_oa_location.id	pmh:oai:arXiv.org:1808.01276
best_oa_location.is_oa	True
best_oa_location.source.id	https://openalex.org/S4306400194
best_oa_location.source.issn
best_oa_location.source.type	repository
best_oa_location.source.is_oa	True
best_oa_location.source.issn_l
best_oa_location.source.is_core	False
best_oa_location.source.is_in_doaj	False
best_oa_location.source.display_name	arXiv (Cornell University)
best_oa_location.source.host_organization	https://openalex.org/I205783295
best_oa_location.source.host_organization_name	Cornell University
best_oa_location.source.host_organization_lineage	https://openalex.org/I205783295
best_oa_location.license
best_oa_location.pdf_url	https://arxiv.org/pdf/1808.01276
best_oa_location.version	submittedVersion
best_oa_location.raw_type	text
best_oa_location.license_id
best_oa_location.is_accepted	False
best_oa_location.is_published	False
best_oa_location.raw_source_name
best_oa_location.landing_page_url	http://arxiv.org/abs/1808.01276
primary_location.id	doi:10.1103/physrevc.99.054908
primary_location.is_oa	False
primary_location.source.id	https://openalex.org/S118093565
primary_location.source.issn	2469-9985, 2469-9993, 2470-0002
primary_location.source.type	journal
primary_location.source.is_oa	False
primary_location.source.issn_l	2469-9985
primary_location.source.is_core	True
primary_location.source.is_in_doaj	False
primary_location.source.display_name	Physical review. C
primary_location.source.host_organization	https://openalex.org/P4310320261
primary_location.source.host_organization_name	American Physical Society
primary_location.source.host_organization_lineage	https://openalex.org/P4310320261
primary_location.source.host_organization_lineage_names	American Physical Society
primary_location.license
primary_location.pdf_url
primary_location.version	publishedVersion
primary_location.raw_type	journal-article
primary_location.license_id
primary_location.is_accepted	True
primary_location.is_published	True
primary_location.raw_source_name	Physical Review C
primary_location.landing_page_url	https://doi.org/10.1103/physrevc.99.054908
publication_date	2019-05-28
publication_year	2019
referenced_works	https://openalex.org/W2120240336, https://openalex.org/W2560329884, https://openalex.org/W2258766493, https://openalex.org/W2585757434, https://openalex.org/W2049877058, https://openalex.org/W3098306410, https://openalex.org/W2137236837, https://openalex.org/W2070507840, https://openalex.org/W2088922223, https://openalex.org/W2803504845, https://openalex.org/W2133141383, https://openalex.org/W2031571789, https://openalex.org/W1994029735, https://openalex.org/W2147968749, https://openalex.org/W1649919698, https://openalex.org/W1959512086, https://openalex.org/W1976174002, https://openalex.org/W1988162053, https://openalex.org/W2074297940, https://openalex.org/W1943356511, https://openalex.org/W183430780, https://openalex.org/W2062642665, https://openalex.org/W2302795429, https://openalex.org/W989987439, https://openalex.org/W2522502363, https://openalex.org/W2126459965, https://openalex.org/W2025131314, https://openalex.org/W1976205596, https://openalex.org/W2883434387, https://openalex.org/W2044318227, https://openalex.org/W2054945265, https://openalex.org/W2558198819, https://openalex.org/W3037047142, https://openalex.org/W2747152728, https://openalex.org/W2887795676, https://openalex.org/W2610929406, https://openalex.org/W2216844525, https://openalex.org/W2800973765, https://openalex.org/W3105655547, https://openalex.org/W3098832790, https://openalex.org/W3099726907, https://openalex.org/W3104446639, https://openalex.org/W3098657800
referenced_works_count	43
abstract_inverted_index.+	10, 15, 43, 89, 92, 96, 191, 299
abstract_inverted_index.A	68
abstract_inverted_index.a	245
abstract_inverted_index.d	91
abstract_inverted_index.$A	42
abstract_inverted_index.$d	298
abstract_inverted_index.$p	9, 88
abstract_inverted_index.A$	16, 44
abstract_inverted_index.He	95
abstract_inverted_index.In	239
abstract_inverted_index.P.	201
abstract_inverted_index.R.	204
abstract_inverted_index.V.	198, 199
abstract_inverted_index.We	276
abstract_inverted_index.^3	94
abstract_inverted_index.as	131
abstract_inverted_index.at	17, 148, 194, 302
abstract_inverted_index.by	65, 112, 215, 322, 349
abstract_inverted_index.et	117
abstract_inverted_index.if	338
abstract_inverted_index.in	2, 41, 87, 142, 172, 188, 297, 334, 363
abstract_inverted_index.is	54
abstract_inverted_index.it	339
abstract_inverted_index.no	158
abstract_inverted_index.of	5, 46, 51, 57, 60, 152, 176, 232, 236, 247, 270, 281, 289, 293, 307, 317, 325, 332
abstract_inverted_index.or	162
abstract_inverted_index.p$	11
abstract_inverted_index.to	12, 38, 74, 130, 229, 336, 370
abstract_inverted_index.we	226, 243
abstract_inverted_index.15,	123
abstract_inverted_index.214	124
abstract_inverted_index.Au$	97, 192, 300
abstract_inverted_index.Au,	90, 93
abstract_inverted_index.Ion	21
abstract_inverted_index.One	49, 126
abstract_inverted_index.The	212
abstract_inverted_index.[C.	115
abstract_inverted_index.[M.	196
abstract_inverted_index.aim	227
abstract_inverted_index.al.	118
abstract_inverted_index.and	24, 80, 101, 106, 155, 203, 219, 224, 253, 262, 273, 356
abstract_inverted_index.are	35, 146, 222, 367
abstract_inverted_index.can	340
abstract_inverted_index.for	99, 136, 257, 265
abstract_inverted_index.its	255
abstract_inverted_index.new	166
abstract_inverted_index.our	248, 279
abstract_inverted_index.the	18, 25, 55, 81, 109, 139, 143, 149, 153, 173, 184, 233, 268, 282, 287, 290, 294, 318, 342, 346, 352, 364, 371
abstract_inverted_index.was	72
abstract_inverted_index.121,	209
abstract_inverted_index.Both	351
abstract_inverted_index.MSTV	291
abstract_inverted_index.Nat.	121
abstract_inverted_index.RHIC	195
abstract_inverted_index.Rev.	207
abstract_inverted_index.^3He	14, 190
abstract_inverted_index.call	313
abstract_inverted_index.data	83, 193, 366
abstract_inverted_index.find	277
abstract_inverted_index.from	8, 84
abstract_inverted_index.here	228, 355
abstract_inverted_index.into	314
abstract_inverted_index.only	169
abstract_inverted_index.some	231, 316
abstract_inverted_index.that	34, 85, 135, 278
abstract_inverted_index.this	240
abstract_inverted_index.thus	225
abstract_inverted_index.will	328, 359
abstract_inverted_index.with	183, 310, 345
abstract_inverted_index.work	267, 353
abstract_inverted_index.$p/d/	13, 189
abstract_inverted_index.$v_2$	105, 185, 347
abstract_inverted_index.$v_3$	107
abstract_inverted_index.(LHC)	29
abstract_inverted_index.(QGP)	63
abstract_inverted_index.Heavy	20
abstract_inverted_index.Large	26
abstract_inverted_index.Lett.	208
abstract_inverted_index.MSTV.	323, 350
abstract_inverted_index.Mace,	197, 216
abstract_inverted_index.Phys.	122, 206
abstract_inverted_index.RHIC.	303
abstract_inverted_index.basic	234
abstract_inverted_index.color	372
abstract_inverted_index.data,	312
abstract_inverted_index.first	241
abstract_inverted_index.glass	373
abstract_inverted_index.gluon	177
abstract_inverted_index.large	47
abstract_inverted_index.later	266
abstract_inverted_index.model	285
abstract_inverted_index.order	335
abstract_inverted_index.small	6, 58, 137
abstract_inverted_index.these	52, 77, 237, 326
abstract_inverted_index.those	39
abstract_inverted_index.using	168
abstract_inverted_index.which	361
abstract_inverted_index.(MSTV)	221
abstract_inverted_index.(RHIC)	23
abstract_inverted_index.052301	210
abstract_inverted_index.Aidala	116
abstract_inverted_index.Hadron	27
abstract_inverted_index.follow	108
abstract_inverted_index.future	357
abstract_inverted_index.issues	327
abstract_inverted_index.model,	251
abstract_inverted_index.parton	160
abstract_inverted_index.plasma	62
abstract_inverted_index.reveal	30
abstract_inverted_index.(PHENIX	119
abstract_inverted_index.Skokov,	200, 217
abstract_inverted_index.Tribedy	218
abstract_inverted_index.aspects	306
abstract_inverted_index.encoded	147
abstract_inverted_index.further	75, 330
abstract_inverted_index.hadrons	145
abstract_inverted_index.moments	151
abstract_inverted_index.nuclei.	48
abstract_inverted_index.pattern	110
abstract_inverted_index.physics	284
abstract_inverted_index.program	71, 86
abstract_inverted_index.provide	244
abstract_inverted_index.require	157, 329
abstract_inverted_index.results	213, 288
abstract_inverted_index.scales,	259
abstract_inverted_index.similar	37
abstract_inverted_index.spectra	272
abstract_inverted_index.studies	358
abstract_inverted_index.systems	7, 138
abstract_inverted_index.(2018)].	211
abstract_inverted_index.(2019)].	125
abstract_inverted_index.Collider	22, 28
abstract_inverted_index.However,	304
abstract_inverted_index.Tribedy,	202
abstract_inverted_index.analysis	269
abstract_inverted_index.droplets	59
abstract_inverted_index.earliest	150
abstract_inverted_index.elements	320
abstract_inverted_index.elliptic	100
abstract_inverted_index.emission	32, 78
abstract_inverted_index.existing	311
abstract_inverted_index.features	235, 362
abstract_inverted_index.followed	64
abstract_inverted_index.geometry	69
abstract_inverted_index.momentum	271
abstract_inverted_index.observed	40, 141, 187
abstract_inverted_index.particle	31
abstract_inverted_index.patterns	33, 53, 140, 186
abstract_inverted_index.physics,	179
abstract_inverted_index.proposed	73
abstract_inverted_index.publicly	249
abstract_inverted_index.question	315
abstract_inverted_index.referred	129
abstract_inverted_index.reported	180, 214, 321, 348, 354
abstract_inverted_index.striking	181
abstract_inverted_index.studies,	308
abstract_inverted_index.suggests	134
abstract_inverted_index.together	309
abstract_inverted_index.uniquely	368
abstract_inverted_index.Recently,	165
abstract_inverted_index.agreement	182, 344
abstract_inverted_index.approach,	128
abstract_inverted_index.available	250
abstract_inverted_index.azimuthal	274
abstract_inverted_index.collision	154
abstract_inverted_index.determine	337
abstract_inverted_index.essential	319
abstract_inverted_index.establish	360
abstract_inverted_index.formation	56
abstract_inverted_index.ip-jazma,	252, 333
abstract_inverted_index.patterns,	79
abstract_inverted_index.predicted	111
abstract_inverted_index.replicate	341
abstract_inverted_index.reproduce	230
abstract_inverted_index.reserving	264
abstract_inverted_index.therefore	156
abstract_inverted_index.Resolution	324
abstract_inverted_index.additional	305
abstract_inverted_index.anisotropy	103
abstract_inverted_index.collisions	4, 45, 98, 301
abstract_inverted_index.condensate	374
abstract_inverted_index.evolution.	67, 164
abstract_inverted_index.reproduces	286
abstract_inverted_index.saturation	178, 258, 283
abstract_inverted_index.scattering	161
abstract_inverted_index.strikingly	36
abstract_inverted_index.triangular	102
abstract_inverted_index.Venugopalan	220
abstract_inverted_index.alternative	127
abstract_inverted_index.calculation	292
abstract_inverted_index.description	246
abstract_inverted_index.engineering	70
abstract_inverted_index.explanation	50
abstract_inverted_index.final-state	144, 159
abstract_inverted_index.investigate	76, 254
abstract_inverted_index.qualitative	343
abstract_inverted_index.quark-gluon	61
abstract_inverted_index.Experimental	0
abstract_inverted_index.Relativistic	19
abstract_inverted_index.Venugopalan,	205
abstract_inverted_index.attributable	369
abstract_inverted_index.calculations	114, 167
abstract_inverted_index.coefficients	104
abstract_inverted_index.description.	375
abstract_inverted_index.developments	331
abstract_inverted_index.dilute-dense	174
abstract_inverted_index.distribution	296
abstract_inverted_index.experimental	82, 365
abstract_inverted_index.hydrodynamic	66, 113, 163
abstract_inverted_index.implications	256
abstract_inverted_index.measurements	1
abstract_inverted_index.multiplicity	260, 295
abstract_inverted_index.relativistic	3
abstract_inverted_index.anisotropies.	275
abstract_inverted_index.approximation	175
abstract_inverted_index.calculations.	238
abstract_inverted_index.correlations,	133, 171
abstract_inverted_index.initial-state	132, 170
abstract_inverted_index.distributions,	261
abstract_inverted_index.implementation	280
abstract_inverted_index.investigation,	242
abstract_inverted_index.Collaboration),	120
abstract_inverted_index.eccentricities,	263
abstract_inverted_index.counterintuitive	223
cited_by_percentile_year.max	99
cited_by_percentile_year.min	90
countries_distinct_count	2
institutions_distinct_count	2
citation_normalized_percentile.value	0.97794884
citation_normalized_percentile.is_in_top_1_percent	False
citation_normalized_percentile.is_in_top_10_percent	True