Preprint

Optimal Reconstruction of Baryon Acoustic Oscillations for DESI 2024

E. PaillasWaterloo UZ. DingShanghai Jiaotong UXun ChenHee‐Jong SeoNikhil PadmanabhanArnaud de MattiaIRFU, SaclayA.J. RossOhio State U., Dept. AstronS. NadathurPortsmouth U., ICGCullan HowlettQueensland UJ. AguilarS. AhlenBoston UO. AlvesMichigan UU. AndradeMichigan U., MCTPDavid BrooksUniversity Coll. LondonE. Buckley‐GeerChicago U., Astron. Astrophys. CtrE. BurtinIRFU, SaclayS. ChenPrinceton, Inst. Advanced StudyT. ClaybaughShaun ColeDurham U., ICCKyle DawsonAxel de la MacorraUNAM, MexicoArjun DeyNatl. Solar Observ., TucsonP. DoelUniversity Coll. LondonK. FanningKIPAC, Menlo ParkS. FerraroLBL, BerkeleyJ. E. Forero-RomeroC. García-QuinteroE. GaztañagaPortsmouth U., ICGHéctor Gil-MarínICC, Barcelona USatya Gontcho A GontchoG. GutiérrezFermilabChang Hoon HahnM. HanifMichigan UK. HonscheidChicago U., KICPM IshakMustapha IshakSouthern Methodist UKremin, A.Martin LandriauL. Le GuillouLPNHE, ParisM. E. LeviMarc ManeraBarcelona, Autonoma UPaul MartiniOhio State U., Dept. AstronL. Medina-VarelaAaron MeisnerNatl. Solar Observ., TucsonJ. Mena-FernándezLPSC, GrenobleR. MiquelICREA, BarcelonaJohn MoustakasSiena Coll., LoudonvilleEva-Maria MuellerSussex UA. Muñoz-GutiérrezUNAM, MexicoAdam D. MyersWyoming UJeffrey A. NewmanPittsburgh UJundan NieBeijing ObservGustavo NizUNAM, MexicoN. Palanque‐DelabrouilleLBL, BerkeleyWill J. PercivalPerimeter Inst. Theor. PhysClaire PoppettUC, Berkeley (main)Francisco PradaGranada U., Theor. Phys. AstrophysPérez-Fernández, A.UNAM, MexicoM. RashkovetskyiHarvard-Smithsonian Ctr. AstrophysMehdi RezaieKansas State U., ManhattanA. Rosado-MarinGraziano RossiSejong URossana RuggeriQueensland UE. SánchezMadrid, CIEMATChristoph SaulderEdward F. SchlaflyBaltimore, Space Telescope SciDavid J. SchlegelM. SchubnellMichigan UDavid SprayberryNatl. Solar Observ., TucsonG. TarléMichigan UD. ValcinM. Vargas-MagañaUNAM, MexicoJiaxi YuEcole Polytechnique, LausanneSihan YuanRongpu ZhouH. ZouBeijing Observ

arXiv (Cornell University)repository2024en

ABI

Abstract

Baryon acoustic oscillations (BAO) provide a robust standard ruler to measure the expansion history of the Universe through galaxy clustering. Density-field reconstruction is now a widely adopted procedure for increasing the precision and accuracy of the BAO detection. With the goal of finding the optimal reconstruction settings to be used in the DESI 2024 galaxy BAO analysis, we assess the sensitivity of the post-reconstruction BAO constraints to different choices in our analysis configuration, performing tests on blinded data from the first year of DESI observations (DR1), as well as on mocks that mimic the expected clustering and selection properties of the DESI DR1 target samples. Overall, we find that BAO constraints remain robust against multiple aspects in the reconstruction process, including the choice of smoothing scale, treatment of redshift-space distortions, fiber assignment incompleteness, and parameterizations of the BAO model. We also present a series of tests that DESI followed in order to assess the maturity of the end-to-end galaxy BAO pipeline before the unblinding of the large-scale structure catalogs.

Topics

Galaxies: Formation, Evolution, Phenomena Astronomy and Astrophysical Research Adaptive optics and wavefront sensing

Identifiers

DOI: 10.48550/arxiv.2404.03005

Citations and references

Cited by 30 references

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