The DESI One-percent Survey: Evidence for Assembly Bias from Low-redshift Counts-in-cylinders Measurements

Pearl, Alan N.; Zentner, Andrew R.; Newman, Jeffrey A.; Bezanson, Rachel; Wang, Kuan; Moustakas, John; Aguilar, Jessica N.; Ahlen, Steven; Brooks, David; Claybaugh, Todd; Cole, Shaun; Dawson, Kyle; de la Macorra, Axel; Doel, Peter; Forero-Romero, Jamie E.; Gontcho A Gontcho, Satya; Honscheid, Klaus; Landriau, Martin; Manera, Marc; Martini, Paul; Meisner, Aaron; Miquel, Ramon; Nie, Jundan; Percival, Will; Prada, Francisco; Rezaie, Mehdi; Rossi, Graziano; Sanchez, Eusebio; Schubnell, Michael; Tarlé, Gregory; Weaver, Benjamin A.; Zhou, Zhimin

doi:10.3847/1538-4357/ad1ffd

The DESI One-percent Survey: Evidence for Assembly Bias from Low-redshift Counts-in-cylinders Measurements

Pearl, Alan N.; Zentner, Andrew R.; Newman, Jeffrey A.; Bezanson, Rachel; Wang, Kuan; Moustakas, John; Aguilar, Jessica N.; Ahlen, Steven; Brooks, David; Claybaugh, Todd; Cole, Shaun; Dawson, Kyle; de la Macorra, Axel; Doel, Peter; Forero-Romero, Jamie E.; Gontcho A Gontcho, Satya; Honscheid, Klaus; Landriau, Martin; Manera, Marc; Martini, Paul; Meisner, Aaron; Miquel, Ramon; Nie, Jundan; Percival, Will; Prada, Francisco; Rezaie, Mehdi; Rossi, Graziano; Sanchez, Eusebio; Schubnell, Michael; Tarlé, Gregory; Weaver, Benjamin A.; Zhou, Zhimin

Authors

Alan N. Pearl

Andrew R. Zentner

Jeffrey A. Newman

Rachel Bezanson

Kuan Wang

John Moustakas

Jessica N. Aguilar

Steven Ahlen

David Brooks

Todd Claybaugh

Professor Shaun Cole shaun.cole@durham.ac.uk
Director of the Institute for Computational Cosmology

Kyle Dawson

Axel de la Macorra

Peter Doel

Jamie E. Forero-Romero

Satya Gontcho A Gontcho

Klaus Honscheid

Martin Landriau

Marc Manera

Paul Martini

Aaron Meisner

Ramon Miquel

Jundan Nie

Will Percival

Francisco Prada

Mehdi Rezaie

Graziano Rossi

Eusebio Sanchez

Michael Schubnell

Gregory Tarlé

Benjamin A. Weaver

Zhimin Zhou

Abstract

We explore the galaxy-halo connection information that is available in low-redshift samples from the early data release of the Dark Energy Spectroscopic Instrument (DESI). We model the halo occupation distribution (HOD) from z = 0.1 to 0.3 using Survey Validation 3 (SV3; a.k.a., the One-Percent Survey) data of the DESI Bright Galaxy Survey. In addition to more commonly used metrics, we incorporate counts-in-cylinders (CiC) measurements, which drastically tighten HOD constraints. Our analysis is aided by the Python package, galtab, which enables the rapid, precise prediction of CiC for any HOD model available in halotools. This methodology allows our Markov chains to converge with much fewer trial points, and enables even more drastic speedups due to its GPU portability. Our HOD fits constrain characteristic halo masses tightly and provide statistical evidence for assembly bias, especially at lower luminosity thresholds: the HOD of central galaxies in z ∼ 0.15 samples with limiting absolute magnitude M r < −20.0 and M r < −20.5 samples is positively correlated with halo concentration with a significance of 99.9% and 99.5%, respectively. Our models also favor positive central assembly bias for the brighter M r < −21.0 sample at z ∼ 0.25 (94.8% significance), but there is no significant evidence for assembly bias with the same luminosity threshold at z ∼ 0.15. We provide our constraints for each threshold sample’s characteristic halo masses, assembly bias, and other HOD parameters. These constraints are expected to be significantly tightened with future DESI data, which will span an area 100 times larger than that of SV3.

Citation

Pearl, A. N., Zentner, A. R., Newman, J. A., Bezanson, R., Wang, K., Moustakas, J., Aguilar, J. N., Ahlen, S., Brooks, D., Claybaugh, T., Cole, S., Dawson, K., de la Macorra, A., Doel, P., Forero-Romero, J. E., Gontcho A Gontcho, S., Honscheid, K., Landriau, M., Manera, M., Martini, P., …Zhou, Z. (2024). The DESI One-percent Survey: Evidence for Assembly Bias from Low-redshift Counts-in-cylinders Measurements. Astrophysical Journal, 963(2), Article 116. https://doi.org/10.3847/1538-4357/ad1ffd

Journal Article Type	Article
Acceptance Date	Dec 28, 2023
Online Publication Date	Mar 5, 2024
Publication Date	Mar 10, 2024
Deposit Date	Mar 22, 2024
Publicly Available Date	Mar 22, 2024
Journal	Astrophysical Journal
Print ISSN	0004-637X
Electronic ISSN	1538-4357
Publisher	American Astronomical Society
Peer Reviewed	Peer Reviewed
Volume	963
Issue	2
Article Number	116
DOI	https://doi.org/10.3847/1538-4357/ad1ffd
Keywords	Two-point correlation function, Astronomical models, Galaxy dark matter halos, Extragalactic astronomy, Cosmological evolution, Astronomy software, N-body simulations
Public URL	https://durham-repository.worktribe.com/output/2314141