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THE RESOLVE SURVEY ATOMIC GAS CENSUS AND ENVIRONMENTAL INFLUENCES ON GALAXY GAS RESERVOIRS

2020· article· en· 0 citations· W4298329735 sur OpenAlex· 10.17615/2jqe-wt68

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Le tri à trois modèles

les 1 000 travaux triés →

Les trois modèles l'ont jugé hors champ.

strate : fund_new · poids de sondage : 1678.90 (l'échantillon est stratifié ; tout taux calculé sans le poids est faux)
Claude Opus 4.8OUT
genre : empirical
porte sur le Canada: non
confiance: high

Astronomy survey paper on the atomic gas census of RESOLVE galaxies.

GPT-5.6 (high)OUT
genre : empirical
porte sur le Canada: non
confiance: high

It analyzes galaxy gas reservoirs and environments, not research itself.

Grok 4.5OUT
genre : empirical
porte sur le Canada: non
confiance: high

Astronomy census of galaxy HI gas and environment; observational astrophysics.

Résumé

We present the H i mass inventory for the REsolved Spectroscopy Of a Local VolumE (RESOLVE) survey, a volume-limited, multi-wavelength census of >1500 z = 0 galaxies spanning diverse environments and complete in baryonic mass down to dwarfs of ~109 ${M}_{\odot }$. This first 21 cm data release provides robust detections or strong upper limits (1.4M H i < 5%–10% of stellar mass M *) for ~94% of RESOLVE. We examine global atomic gas-to-stellar mass ratios (G/S) in relation to galaxy environment using several metrics: group dark matter halo mass M h, central/satellite designation, relative mass density of the cosmic web, and distance to the nearest massive group. We find that at fixed M *, satellites have decreasing G/S with increasing M h starting clearly at M h ~ 1012 ${M}_{\odot }$, suggesting the presence of starvation and/or stripping mechanisms associated with halo gas heating in intermediate-mass groups. The analogous relationship for centrals is uncertain because halo abundance matching builds in relationships between central G/S, stellar mass, and halo mass, which depend on the integrated group property used as a proxy for halo mass (stellar or baryonic mass). On larger scales G/S trends are less sensitive to the abundance matching method. At fixed M h ≤ 1012 ${M}_{\odot }$, the fraction of gas-poor centrals increases with large-scale structure density. In overdense regions, we identify a rare population of gas-poor centrals in low-mass (M h < 1011.4 ${M}_{\odot }$) halos primarily located within ~1.5× the virial radius of more massive (M h > 1012 ${M}_{\odot }$) halos, suggesting that gas stripping and/or starvation may be induced by interactions with larger halos or the surrounding cosmic web. We find that the detailed relationship between G/S and environment varies when we examine different subvolumes of RESOLVE independently, which we suggest may be a signature of assembly bias.

Conservé avec la notice de tri, où il sert de preuve aux étiquettes ci-dessus.

La notice

Revue
UNC Libraries
Thématique
Methane Hydrates and Related Phenomena
Domaine
Environmental Science
Établissements canadiens
Organismes subventionnaires
Lawrence Berkeley National LaboratoryYork UniversityUniversities Space Research AssociationCarnegie Mellon UniversityOffice of ScienceJohns Hopkins UniversityOhio State UniversityNew Mexico State UniversityUniversity of PortsmouthYale UniversityVanderbilt UniversityCollege of Engineering, Michigan State UniversityHarvard UniversityNorth Carolina Space GrantAlfred P. Sloan FoundationUniversity of WashingtonNational Science FoundationBrookhaven National LaboratoryU.S. Department of EnergyCalifornia Institute of TechnologyNational Aeronautics and Space AdministrationMinistry of Education, Culture, Sports, Science and TechnologyPrinceton University
Mots-clés
CensusEnvironmental scienceGalaxyGeographyAstrophysicsPhysicsPopulationSociologyDemography
Résumé présent dans OpenAlex
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