DESI DR2 Results I: Baryon Acoustic Oscillations from the Lyman Alpha Forest

DESI Collaboration: M. Abdul-Karim; J. Aguilar; S. Ahlen; C. Allende Prieto; O. Alves; A. Anand; U. Andrade; E. Armengaud; A. Aviles; S. Bailey; A. Bault; J. Behera; S. BenZvi; D. Bianchi; C. Blake; A. Brodzeller; D. Brooks; E. Buckley-Geer; E. Burtin; R. Calderon; R. Canning; A. Carnero Rosell; P. Carrilho; L. Casas; F.J. Castander; R. Cereskaite; M. Charles; E. Chaussidon; J. Chaves-Montero; D. Chebat; T. Claybaugh; S. Cole; A. P. Cooper; A. Cuceu; K. S. Dawson; R. de Belsunce; A. de la Macorra; A. de Mattia; N. Deiosso; J. Della Costa; A. Dey; B. Dey; Z. Ding; P. Doel; J. Edelstein; D. J. Eisenstein; W. Elbers; P. Fagrelius; K. Fanning; S. Ferraro; A. Font-Ribera; J. E. Forero-Romero; C. Garcia-Quintero; L.H. Garrison; E. Gazta\~naga; H. Gil-Mar\'in; S. Gontcho A Gontcho; A. X. Gonzalez-Morales; C. Gordon; D. Green; G. Gutierrez; J. Guy; C. Hahn; M. Herbold; H. K. Herrera-Alcantar; M.-F. Ho; K. Honscheid; C. Howlett; D. Huterer; M. Ishak; S. Juneau; N. G. Kara\c{c}ayl{\i}; R. Kehoe; S. Kent; D. Kirkby; T. Kisner; F.-S. Kitaura; S. E. Koposov; A. Kremin; O. Lahav; C. Lamman; M. Landriau; D. Lang; J. Lasker; J.M. Le Goff; L. Le Guillou; A. Leauthaud; M. E. Levi; Q. Li; T. S. Li; K. Lodha; M. Lokken; C. Magneville; M. Manera; P. Martini; W. L. Matthewson; P. McDonald; A. Meisner; J. Mena-Fern\'andez; R. Miquel; J. Moustakas; D. Mu\~noz Santos; A. Mu\~noz-Guti\'errez; A. D. Myers; J. A. Newman; G. Niz; H. E. Noriega; E. Paillas; N. Palanque-Delabrouille; J. Pan; W.J. Percival; I. P\'erez-R\`afols; M.M. Pieri; C. Poppett; F. Prada; D. Rabinowitz; A. Raichoor; C. Ram\'irez-P\'erez; M. Rashkovetskyi; C. Ravoux; J. Rich; C. Rockosi; A. J. Ross; G. Rossi; V. Ruhlmann-Kleider; E. Sanchez; N. Sanders; S. Satyavolu; D. Schlegel; M. Schubnell; H. Seo; A. Shafieloo; R. Sharples; J. Silber; F. Sinigaglia; D. Sprayberry; T. Tan; G. Tarl\'e; P. Taylor; W. Turner; F. Valdes; M. Vargas-Maga\~na; M. Walther; B. A. Weaver; M. Wolfson; C. Y\`eche; P. Zarrouk; R. Zhou; H. Zou

arXiv:2503.14739·astro-ph.CO·July 1, 2025·6 cites

DESI DR2 Results I: Baryon Acoustic Oscillations from the Lyman Alpha Forest

DESI Collaboration: M. Abdul-Karim, J. Aguilar, S. Ahlen, C. Allende Prieto, O. Alves, A. Anand, U. Andrade, E. Armengaud, A. Aviles, S. Bailey, A. Bault, J. Behera, S. BenZvi, D. Bianchi, C. Blake, A. Brodzeller, D. Brooks, E. Buckley-Geer, E. Burtin, R. Calderon, R. Canning

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TL;DR

This paper reports precise measurements of the baryon acoustic oscillation scale using the Lyman-alpha forest from DESI DR2, significantly improving the statistical accuracy and including systematic error considerations, to enhance cosmological constraints.

Contribution

First to measure BAO with the Lyman-alpha forest from DESI DR2, achieving sub-percent precision and incorporating systematic errors into the analysis.

Findings

01

BAO scale measured with 1.1% and 1.3% precision along and transverse to the line of sight.

02

Combined isotropic BAO scale precision of 0.65% at redshift 2.33.

03

Ratios of cosmological distances to the sound horizon with quantified uncertainties.

Abstract

We present the Baryon Acoustic Oscillation (BAO) measurements with the Lyman-alpha (LyA) forest from the second data release (DR2) of the Dark Energy Spectroscopic Instrument (DESI) survey. Our BAO measurements include both the auto-correlation of the LyA forest absorption observed in the spectra of high-redshift quasars and the cross-correlation of the absorption with the quasar positions. The total sample size is approximately a factor of two larger than the DR1 dataset, with forest measurements in over 820,000 quasar spectra and the positions of over 1.2 million quasars. We describe several significant improvements to our analysis in this paper, and two supporting papers describe improvements to the synthetic datasets that we use for validation and how we identify damped LyA absorbers. Our main result is that we have measured the BAO scale with a statistical precision of 1.1% along…

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Taxonomy

TopicsGalaxies: Formation, Evolution, Phenomena · Scientific Research and Discoveries · Radio Astronomy Observations and Technology