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Semi-analytical covariance matrices for two-point correlation function for DESI 2024 data

M. RashkovetskyiHarvard-Smithsonian Ctr. AstrophysD. Forero-SánchezLASTRO ObservArnaud de MattiaIRFU, SaclayDaniel J. EisensteinHarvard-Smithsonian Ctr. AstrophysNikhil PadmanabhanHee‐Jong SeoA.J. RossChicago U., KICPJ. AguilarS. AhlenBoston UO. AlvesMichigan UU. AndradeMichigan UDavid J. BrooksUniversity Coll. LondonE. BurtinIRFU, SaclayXinyi ChenT. ClaybaughDurham U., ICCShaun ColeUNAM, MexicoAxel de la MacorraShanghai Jiaotong UZ. DingUniversity Coll. LondonP. DoelMenlo SchoolK. FanningLBL, BerkeleyS. FerraroUniversity Coll. LondonAndreu Font-RiberaJ. E. Forero-RomeroC. García-QuinteroBarcelona, IEECHéctor Gil-MarínSatya Gontcho A GontchoConacyt, MexicoAlma X. González‐MoralesFermilabG. GutiérrezOhio State UK. HonscheidQueensland UCullan HowlettNatl. Solar Observ., TucsonS. JuneauAnthony KreminLPNHE, ParisL. Le GuillouBarcelona, Autonoma UMarc ManeraL. Medina-VarelaLPSC, GrenobleJ. Mena-FernándezICREA, BarcelonaR. MiquelSussex UEva-Maria MuellerUNAM, MexicoA. Muñoz-GutiérrezWyoming UA.D. MyersBeijing ObservJundan NieUNAM, MexicoGustavo NizWaterloo UE. PaillasWaterloo UWill J. PercivalBCCP, BerkeleyClaire PoppettUNAM, MexicoA. Pérez-FernándezKansas State U., ManhattanMehdi RezaieA.J Rosado-MarínSejong UGraziano RossiSwinburne U., Ctr. Astrophys. SupercomputRossana RuggeriMadrid, CIEMATE. SánchezChristoph SaulderDavid J. SchlegelU. Michigan, Ann ArborM. SchubnellNatl. Solar Observ., TucsonDavid SprayberryMichigan UG. TarléNatl. Solar Observ., TucsonB.A. WeaverLASTRO ObservJiaxi YuTsinghua U., BeijingCheng ZhaoBeijing ObservH. Zou
2025en
ABI

Annotatsiya

Abstract We present an optimized way of producing the fast semi-analytical covariance matrices for the Legendre moments of the two-point correlation function, taking into account survey geometry and mimicking the non-Gaussian effects. We validate the approach on simulated (mock) catalogs for different galaxy types, representative of the Dark Energy Spectroscopic Instrument (DESI) Data Release 1, used in 2024 analyses. We find only a few percent differences between the mock sample covariance matrix and our results, which can be expected given the approximate nature of the mocks, although we do identify discrepancies between the shot-noise properties of the DESI fiber assignment algorithm and the faster approximation (emulator) used in the mocks. Importantly, we find a close agreement (≤ 8% relative differences) in the projected errorbars for distance scale parameters for the baryon acoustic oscillation measurements. This confirms our method as an attractive alternative to simulation-based covariance matrices, especially for non-standard models or galaxy sample selections, making it particularly relevant to the broad current and future analyses of DESI data.

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