_version_ 1866929209303105536
author Rocher, Antoine
Ruhlmann-Kleider, Vanina
Burtin, Etienne
Yuan, Sihan
de Mattia, Arnaud
Ross, Ashley J.
Aguilar, Jessica
Ahlen, Steven
Alam, Shadab
Bianchi, Davide
Brooks, David
Cole, Shaun
Dawson, Kyle
de la Macorra, Axel
Doel, Peter
Eisenstein, Daniel J.
Fanning, Kevin
Forero-Romero, Jaime E.
Garrison, Lehman H.
Gontcho, Satya Gontcho A
Gonzalez-Perez, Violeta
Guy, Julien
Hadzhiyska, Boryana
Hahn, ChangHoon
Honscheid, Klaus
Kisner, Theodore
Landriau, Martin
Lasker, James
Levi, Michael E.
Manera, Marc
Meisner, Aaron
Miquel, Ramon
Moustakas, John
Mueller, Eva-Maria
Newman, Jeffrey A.
Nie, Jundan
Percival, Will J.
Poppett, Claire
Qin, Fei
Rossi, Graziano
Samushia, Lado
Sanchez, Eusebio
Schlegel, David
Schubnell, Michael
Seo, Hee-Jong
Tarlé, Gregory
Vargas-Magaña, Mariana
Weaver, Benjamin A.
Yu, Jiaxi
Zhang, Hanyu
Zheng, Zheng
Zhou, Zhimin
Zou, Hu
author_facet Rocher, Antoine
Ruhlmann-Kleider, Vanina
Burtin, Etienne
Yuan, Sihan
de Mattia, Arnaud
Ross, Ashley J.
Aguilar, Jessica
Ahlen, Steven
Alam, Shadab
Bianchi, Davide
Brooks, David
Cole, Shaun
Dawson, Kyle
de la Macorra, Axel
Doel, Peter
Eisenstein, Daniel J.
Fanning, Kevin
Forero-Romero, Jaime E.
Garrison, Lehman H.
Gontcho, Satya Gontcho A
Gonzalez-Perez, Violeta
Guy, Julien
Hadzhiyska, Boryana
Hahn, ChangHoon
Honscheid, Klaus
Kisner, Theodore
Landriau, Martin
Lasker, James
Levi, Michael E.
Manera, Marc
Meisner, Aaron
Miquel, Ramon
Moustakas, John
Mueller, Eva-Maria
Newman, Jeffrey A.
Nie, Jundan
Percival, Will J.
Poppett, Claire
Qin, Fei
Rossi, Graziano
Samushia, Lado
Sanchez, Eusebio
Schlegel, David
Schubnell, Michael
Seo, Hee-Jong
Tarlé, Gregory
Vargas-Magaña, Mariana
Weaver, Benjamin A.
Yu, Jiaxi
Zhang, Hanyu
Zheng, Zheng
Zhou, Zhimin
Zou, Hu
contents The One-Percent survey of the Dark Energy Spectroscopic Instrument collected ~ 270k emission line galaxies (ELGs) at 0.8 < z < 1.6. The high completeness of the sample allowed the clustering to be measured down to scales never probed before, 0.04 Mpc/h in rp for the projected 2-point correlation function (2PCF) and 0.17 Mpc/h in galaxy pair separation s for the 2PCF monopole and quadrupole. The most striking feature of the measurements is a strong signal at the smallest scales, below 0.2 Mpc/h in rp and 1 Mpc/h in s. We analyze these data in the halo occupation distribution framework. We consider different distributions for central galaxies, a standard power law for satellites with no condition on the presence of a central galaxy and explore several extensions of these models. For all considered models, the mean halo mass of the sample is found to be log10 <Mh> ~ 11.9. We obtain a satellite mean occupation function which agrees with physically motivated ELG models only if we introduce central-satellite conformity, meaning that the satellite occupation is conditioned by the presence of central galaxies of the same type. To achieve in addition a good modeling of the clustering between 0.1 and 1 Mpc/h in rp, we allow for ELG positioning outside of the halo virial radius and find 0.5% of ELGs residing in the outskirts of halos. Furthermore, the satellite velocity dispersion inside halos is found to be ~ 30% larger than that of the halo dark matter particles. These are the main findings of our work. We investigate assembly bias as a function of halo concentration, local density or local density anisotropies and observe no significant change in our results. We split the data sample in two redshift bins and report no significant evolution with redshift. Lastly, changing the cosmology in the modeling impacts only slightly our results.
format Preprint
id arxiv_https___arxiv_org_abs_2306_06319
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle The DESI One-Percent survey: exploring the Halo Occupation Distribution of Emission Line Galaxies with AbacusSummit simulations
Rocher, Antoine
Ruhlmann-Kleider, Vanina
Burtin, Etienne
Yuan, Sihan
de Mattia, Arnaud
Ross, Ashley J.
Aguilar, Jessica
Ahlen, Steven
Alam, Shadab
Bianchi, Davide
Brooks, David
Cole, Shaun
Dawson, Kyle
de la Macorra, Axel
Doel, Peter
Eisenstein, Daniel J.
Fanning, Kevin
Forero-Romero, Jaime E.
Garrison, Lehman H.
Gontcho, Satya Gontcho A
Gonzalez-Perez, Violeta
Guy, Julien
Hadzhiyska, Boryana
Hahn, ChangHoon
Honscheid, Klaus
Kisner, Theodore
Landriau, Martin
Lasker, James
Levi, Michael E.
Manera, Marc
Meisner, Aaron
Miquel, Ramon
Moustakas, John
Mueller, Eva-Maria
Newman, Jeffrey A.
Nie, Jundan
Percival, Will J.
Poppett, Claire
Qin, Fei
Rossi, Graziano
Samushia, Lado
Sanchez, Eusebio
Schlegel, David
Schubnell, Michael
Seo, Hee-Jong
Tarlé, Gregory
Vargas-Magaña, Mariana
Weaver, Benjamin A.
Yu, Jiaxi
Zhang, Hanyu
Zheng, Zheng
Zhou, Zhimin
Zou, Hu
Cosmology and Nongalactic Astrophysics
The One-Percent survey of the Dark Energy Spectroscopic Instrument collected ~ 270k emission line galaxies (ELGs) at 0.8 < z < 1.6. The high completeness of the sample allowed the clustering to be measured down to scales never probed before, 0.04 Mpc/h in rp for the projected 2-point correlation function (2PCF) and 0.17 Mpc/h in galaxy pair separation s for the 2PCF monopole and quadrupole. The most striking feature of the measurements is a strong signal at the smallest scales, below 0.2 Mpc/h in rp and 1 Mpc/h in s. We analyze these data in the halo occupation distribution framework. We consider different distributions for central galaxies, a standard power law for satellites with no condition on the presence of a central galaxy and explore several extensions of these models. For all considered models, the mean halo mass of the sample is found to be log10 <Mh> ~ 11.9. We obtain a satellite mean occupation function which agrees with physically motivated ELG models only if we introduce central-satellite conformity, meaning that the satellite occupation is conditioned by the presence of central galaxies of the same type. To achieve in addition a good modeling of the clustering between 0.1 and 1 Mpc/h in rp, we allow for ELG positioning outside of the halo virial radius and find 0.5% of ELGs residing in the outskirts of halos. Furthermore, the satellite velocity dispersion inside halos is found to be ~ 30% larger than that of the halo dark matter particles. These are the main findings of our work. We investigate assembly bias as a function of halo concentration, local density or local density anisotropies and observe no significant change in our results. We split the data sample in two redshift bins and report no significant evolution with redshift. Lastly, changing the cosmology in the modeling impacts only slightly our results.
title The DESI One-Percent survey: exploring the Halo Occupation Distribution of Emission Line Galaxies with AbacusSummit simulations
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2306.06319