Galaxy-Multiplet Clustering from DESI DR2

Hanyue Wang; Daniel J. Eisenstein; Jessica Nicole Aguilar; Steven Ahlen; Davide Bianchi; David Brooks; Todd Claybaugh; Axel de la Macorra; Arjun Dey; Biprateep Dey; Peter Doel; Simone Ferraro; Andreu Font-Ribera; Jaime E. Forero-Romero; Enrique Gaztañaga; Gaston Gutierrez; Klaus Honscheid; Mustapha Ishak; Richard Joyce; Stephanie Juneau; David Kirkby; Theodore Kisner; Anthony Kremin; Ofer Lahav; Claire Lamman; Martin Landriau; Marc Manera; Aaron Meisner; Ramon Miquel; Eva-Maria Mueller; Seshadri Nadathur; Gustavo Niz; Nathalie Palanque-Delabrouille; Will J. Percival; Francisco Prada; Ignasi Pérez-Ràfols; Ashley J. Ross; Graziano Rossi; Eusebio Sanchez; David Schlegel; Michael Schubnell; Joseph Harry Silber; David Sprayberry; Gregory Tarlé; Benjamin Alan Weaver; Rongpu Zhou; Hu Zou

Galaxy-Multiplet Clustering from DESI DR2

Hanyue Wang, Daniel J. Eisenstein, Jessica Nicole Aguilar, Steven Ahlen, Davide Bianchi, David Brooks, Todd Claybaugh, Axel de la Macorra, Arjun Dey, Biprateep Dey, Peter Doel, Simone Ferraro, Andreu Font-Ribera, Jaime E. Forero-Romero, Enrique Gaztañaga, Gaston Gutierrez, Klaus Honscheid, Mustapha Ishak, Richard Joyce, Stephanie JuneauDavid Kirkby, Theodore Kisner, Anthony Kremin, Ofer Lahav, Claire Lamman, Martin Landriau, Marc Manera, Aaron Meisner, Ramon Miquel, Eva-Maria Mueller, Seshadri Nadathur, Gustavo Niz, Nathalie Palanque-Delabrouille, Will J. Percival, Francisco Prada, Ignasi Pérez-Ràfols, Ashley J. Ross, Graziano Rossi, Eusebio Sanchez, David Schlegel, Michael Schubnell, Joseph Harry Silber, David Sprayberry, Gregory Tarlé, Benjamin Alan Weaver, Rongpu Zhou, Hu Zou

Institute of Cosmology & Gravitation

Research output: Contribution to journal › Article › peer-review

Abstract

We present an efficient estimator for higher-order galaxy clustering using small groups of nearby galaxies, or multiplets. Using the Luminous Red Galaxy (LRG) sample from the Dark Energy Spectroscopic Instrument (DESI) Data Release 2, we identify galaxy multiplets as discrete objects and measure their cross-correlations with the general galaxy field. Our results show that the multiplets exhibit stronger clustering bias as they trace more massive dark matter halos than individual galaxies. When comparing the observed clustering statistics with the mock catalogs generated from the N-body simulation AbacusSummit, we find that the mocks underpredict multiplet clustering despite reproducing the galaxy two-point auto-correlation reasonably well. This discrepancy indicates that the standard Halo Occupation Distribution (HOD) model is insufficient to describe the properties of galaxy multiplets, revealing the greater constraining power of this higher-order statistic on galaxy-halo connection and the possibility that multiplets are specific to additional assembly bias. We demonstrate that incorporating secondary biases into the HOD model improves agreement with the observed multiplet statistics, specifically by allowing galaxies to preferentially occupy halos in denser environments. Our results highlight the potential of utilizing multiplet clustering, beyond traditional two-point correlation measurements, to break degeneracies in models describing the galaxy-dark matter connection.

Original language	English
Journal	Monthly Notices of the Royal Astronomical Society
Publication status	Accepted for publication - 16 Nov 2025

Keywords

astro-ph.CO
cosmology: large-scale structure of Universe
methods: data analysis

Embargoed Document

2511.15354v1
Accepted author manuscript (Post-print), 1.45 MB
Due to publisher’s copyright restrictions, this document is not freely available to download from this website until: 1/01/50

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Wang, H., Eisenstein, D. J., Aguilar, J. N., Ahlen, S., Bianchi, D., Brooks, D., Claybaugh, T., Macorra, A. D. L., Dey, A., Dey, B., Doel, P., Ferraro, S., Font-Ribera, A., Forero-Romero, J. E., Gaztañaga, E., Gutierrez, G., Honscheid, K., Ishak, M., Joyce, R., ... Zou, H. (Accepted/In press). Galaxy-Multiplet Clustering from DESI DR2. Monthly Notices of the Royal Astronomical Society.

@article{864a1be123394951baafe8c680edb2dc,

title = "Galaxy-Multiplet Clustering from DESI DR2",

abstract = "We present an efficient estimator for higher-order galaxy clustering using small groups of nearby galaxies, or multiplets. Using the Luminous Red Galaxy (LRG) sample from the Dark Energy Spectroscopic Instrument (DESI) Data Release 2, we identify galaxy multiplets as discrete objects and measure their cross-correlations with the general galaxy field. Our results show that the multiplets exhibit stronger clustering bias as they trace more massive dark matter halos than individual galaxies. When comparing the observed clustering statistics with the mock catalogs generated from the N-body simulation AbacusSummit, we find that the mocks underpredict multiplet clustering despite reproducing the galaxy two-point auto-correlation reasonably well. This discrepancy indicates that the standard Halo Occupation Distribution (HOD) model is insufficient to describe the properties of galaxy multiplets, revealing the greater constraining power of this higher-order statistic on galaxy-halo connection and the possibility that multiplets are specific to additional assembly bias. We demonstrate that incorporating secondary biases into the HOD model improves agreement with the observed multiplet statistics, specifically by allowing galaxies to preferentially occupy halos in denser environments. Our results highlight the potential of utilizing multiplet clustering, beyond traditional two-point correlation measurements, to break degeneracies in models describing the galaxy-dark matter connection.",

keywords = "astro-ph.CO, cosmology: large-scale structure of Universe, methods: data analysis",

author = "Hanyue Wang and Eisenstein, \{Daniel J.\} and Aguilar, \{Jessica Nicole\} and Steven Ahlen and Davide Bianchi and David Brooks and Todd Claybaugh and Macorra, \{Axel de la\} and Arjun Dey and Biprateep Dey and Peter Doel and Simone Ferraro and Andreu Font-Ribera and Forero-Romero, \{Jaime E.\} and Enrique Gazta{\~n}aga and Gaston Gutierrez and Klaus Honscheid and Mustapha Ishak and Richard Joyce and Stephanie Juneau and David Kirkby and Theodore Kisner and Anthony Kremin and Ofer Lahav and Claire Lamman and Martin Landriau and Marc Manera and Aaron Meisner and Ramon Miquel and Eva-Maria Mueller and Seshadri Nadathur and Gustavo Niz and Nathalie Palanque-Delabrouille and Percival, \{Will J.\} and Francisco Prada and Ignasi P{\'e}rez-R{\`a}fols and Ross, \{Ashley J.\} and Graziano Rossi and Eusebio Sanchez and David Schlegel and Michael Schubnell and Silber, \{Joseph Harry\} and David Sprayberry and Gregory Tarl{\'e} and Weaver, \{Benjamin Alan\} and Rongpu Zhou and Hu Zou",

note = "Accepted by MNRAS",

year = "2025",

month = nov,

day = "16",

language = "English",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "Oxford University Press",

}

Wang, H, Eisenstein, DJ, Aguilar, JN, Ahlen, S, Bianchi, D, Brooks, D, Claybaugh, T, Macorra, ADL, Dey, A, Dey, B, Doel, P, Ferraro, S, Font-Ribera, A, Forero-Romero, JE, Gaztañaga, E, Gutierrez, G, Honscheid, K, Ishak, M, Joyce, R, Juneau, S, Kirkby, D, Kisner, T, Kremin, A, Lahav, O, Lamman, C, Landriau, M, Manera, M, Meisner, A, Miquel, R, Mueller, E-M, Nadathur, S, Niz, G, Palanque-Delabrouille, N, Percival, WJ, Prada, F, Pérez-Ràfols, I, Ross, AJ, Rossi, G, Sanchez, E, Schlegel, D, Schubnell, M, Silber, JH, Sprayberry, D, Tarlé, G, Weaver, BA, Zhou, R & Zou, H 2025, 'Galaxy-Multiplet Clustering from DESI DR2', Monthly Notices of the Royal Astronomical Society.

TY - JOUR

T1 - Galaxy-Multiplet Clustering from DESI DR2

AU - Wang, Hanyue

AU - Eisenstein, Daniel J.

AU - Aguilar, Jessica Nicole

AU - Ahlen, Steven

AU - Bianchi, Davide

AU - Brooks, David

AU - Claybaugh, Todd

AU - Macorra, Axel de la

AU - Dey, Arjun

AU - Dey, Biprateep

AU - Doel, Peter

AU - Ferraro, Simone

AU - Font-Ribera, Andreu

AU - Forero-Romero, Jaime E.

AU - Gaztañaga, Enrique

AU - Gutierrez, Gaston

AU - Honscheid, Klaus

AU - Ishak, Mustapha

AU - Joyce, Richard

AU - Juneau, Stephanie

AU - Kirkby, David

AU - Kisner, Theodore

AU - Kremin, Anthony

AU - Lahav, Ofer

AU - Lamman, Claire

AU - Landriau, Martin

AU - Manera, Marc

AU - Meisner, Aaron

AU - Miquel, Ramon

AU - Mueller, Eva-Maria

AU - Nadathur, Seshadri

AU - Niz, Gustavo

AU - Palanque-Delabrouille, Nathalie

AU - Percival, Will J.

AU - Prada, Francisco

AU - Pérez-Ràfols, Ignasi

AU - Ross, Ashley J.

AU - Rossi, Graziano

AU - Sanchez, Eusebio

AU - Schlegel, David

AU - Schubnell, Michael

AU - Silber, Joseph Harry

AU - Sprayberry, David

AU - Tarlé, Gregory

AU - Weaver, Benjamin Alan

AU - Zhou, Rongpu

AU - Zou, Hu

N1 - Accepted by MNRAS

PY - 2025/11/16

Y1 - 2025/11/16

N2 - We present an efficient estimator for higher-order galaxy clustering using small groups of nearby galaxies, or multiplets. Using the Luminous Red Galaxy (LRG) sample from the Dark Energy Spectroscopic Instrument (DESI) Data Release 2, we identify galaxy multiplets as discrete objects and measure their cross-correlations with the general galaxy field. Our results show that the multiplets exhibit stronger clustering bias as they trace more massive dark matter halos than individual galaxies. When comparing the observed clustering statistics with the mock catalogs generated from the N-body simulation AbacusSummit, we find that the mocks underpredict multiplet clustering despite reproducing the galaxy two-point auto-correlation reasonably well. This discrepancy indicates that the standard Halo Occupation Distribution (HOD) model is insufficient to describe the properties of galaxy multiplets, revealing the greater constraining power of this higher-order statistic on galaxy-halo connection and the possibility that multiplets are specific to additional assembly bias. We demonstrate that incorporating secondary biases into the HOD model improves agreement with the observed multiplet statistics, specifically by allowing galaxies to preferentially occupy halos in denser environments. Our results highlight the potential of utilizing multiplet clustering, beyond traditional two-point correlation measurements, to break degeneracies in models describing the galaxy-dark matter connection.

AB - We present an efficient estimator for higher-order galaxy clustering using small groups of nearby galaxies, or multiplets. Using the Luminous Red Galaxy (LRG) sample from the Dark Energy Spectroscopic Instrument (DESI) Data Release 2, we identify galaxy multiplets as discrete objects and measure their cross-correlations with the general galaxy field. Our results show that the multiplets exhibit stronger clustering bias as they trace more massive dark matter halos than individual galaxies. When comparing the observed clustering statistics with the mock catalogs generated from the N-body simulation AbacusSummit, we find that the mocks underpredict multiplet clustering despite reproducing the galaxy two-point auto-correlation reasonably well. This discrepancy indicates that the standard Halo Occupation Distribution (HOD) model is insufficient to describe the properties of galaxy multiplets, revealing the greater constraining power of this higher-order statistic on galaxy-halo connection and the possibility that multiplets are specific to additional assembly bias. We demonstrate that incorporating secondary biases into the HOD model improves agreement with the observed multiplet statistics, specifically by allowing galaxies to preferentially occupy halos in denser environments. Our results highlight the potential of utilizing multiplet clustering, beyond traditional two-point correlation measurements, to break degeneracies in models describing the galaxy-dark matter connection.

KW - astro-ph.CO

KW - cosmology: large-scale structure of Universe

KW - methods: data analysis

M3 - Article

SN - 0035-8711

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

ER -

Galaxy-Multiplet Clustering from DESI DR2

Abstract

Keywords

Embargoed Document

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