The Local Distance Network: a community consensus report on the measurement of the Hubble constant at 1% precision

H0DN Collaboration: Stefano Casertano (1); Gagandeep Anand (1); Richard I. Anderson (2); Rachael Beaton (1); Anupam Bhardwaj (3); John P. Blakeslee (4); Paula Boubel (5); Louise Breuval (1; 6); Dillon Brout (7); Michele Cantiello (8); Mauricio Cruz Reyes (2); Geza Cs\"ornyei (9); Thomas de Jaeger (10); Suhail Dhawan (11); Eleonora Di Valentino (12); Llu\'is Galbany (13; 14); H\'ector Gil-Mar\'in (15; 16; 14); Dariusz Graczyk (17); Caroline Huang (18); Joseph B. Jensen (19); Pierre Kervella (20; 21); Bruno Leibundgut (22); Bastian Lengen (2); Siyang Li (23; 24); Lucas Macri (25); Emre \"Oz\"ulker (12); Dominic W. Pesce (18); Adam Riess (1; 23); Martino Romaniello (22); Khaled Said (26); Nils Sch\"oneberg (27; 28); Dan Scolnic (29); Teresa Sicignano (22; 30; 31); Dorota M. Skowron (32); Syed A. Uddin (33); Licia Verde (35; 15); Antonella Nota (36) ((1) Space Telescope Science Institute; (2) Institute of Physics; \'Ecole Polytechnique F\'ed\'erale de Lausanne (EPFL); Observatoire de Sauverny; (3) Inter-University Centre for Astronomy; Astrophysics (IUCAA); (4) NSF NOIRLab; (5) Research School of Astronomy \& Astrophysics; Australian National University; (6) European Space Agency (ESA); ESA Office; Space Telescope Science Institute; (7) Boston University Departments of Astronomy; Physics; (8) INAF -- Astronomical Observatory of Abruzzo; (9) Max-Planck-Institute for Astrophysics; Garching; (10) Sorbonne Universit\'e; CNRS; Laboratoire de Physique Nucl\'eaire et de Hautes Energies; (11) School of Physics; Astronomy; University of Birmingham; (12) School of Mathematical; Physical Sciences; University of Sheffield; (13) Institute of Space Sciences (ICE-CSIC); (14) Institut d'Estudis Espacials de Catalunya (IEEC); (15) Institut de Ci\`encies del Cosmos (ICCUB); Universitat de Barcelona (UB); (16) Departament de F\'isica Qu\`antica i Astrof\'isica; Universitat de Barcelona; (17) Polish Academy of Sciences; Nicolaus Copernicus Astronomical Center; Department of Astrophysics; (18) Center for Astrophysics | Harvard \& Smithsonian; (19) Department of Physics; Utah Valley University; (20) LIRA; Observatoire de Paris; Universit\'e PSL; Sorbonne Universit\'e; Universit\'e Paris Cit\'e; (21) French-Chilean Laboratory for Astronomy; IRL 3386; CNRS; U. de Chile; (22) European Southern Observatory; (23) Department of Physics \& Astronomy; Johns Hopkins University; (24) Department of Astronomy; University of California; Berkeley; (25) Department of Physics \& Astronomy; College of Sciences; University of Texas Rio Grande Valley; (26) School of Mathematics; Physics; University of Queensland; (27) University Observatory; Faculty of Physics; Ludwig-Maximilians-Universit\"at; (28) Excellence Cluster ORIGINS; (29) Department of Physics; Duke University; (30) Scuola Superiore Meridionale; (31) INAF-Osservatorio Astronomico di Capodimonte; (32) Astronomical Observatory; University of Warsaw; (33) American Public University System; (34) Center for Astronomy; Space Science; Astrophysics; Independent University; Bangladesh; (35) Instituci\'o Catalana de Recerca i Estudis Avan\c{c}ats; (36) International Space Science Institute)

arXiv:2510.23823·astro-ph.CO·April 15, 2026

The Local Distance Network: a community consensus report on the measurement of the Hubble constant at 1% precision

H0DN Collaboration: Stefano Casertano (1), Gagandeep Anand (1), Richard I. Anderson (2), Rachael Beaton (1), Anupam Bhardwaj (3), John P. Blakeslee (4), Paula Boubel (5), Louise Breuval (1, 6), Dillon Brout (7), Michele Cantiello (8), Mauricio Cruz Reyes (2), Geza Cs\"ornyei (9)

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TL;DR

This paper constructs a community consensus on the local Hubble constant (H0) measurement using a diverse set of distance indicators, achieving a 1% precision and highlighting the robustness of the result.

Contribution

It introduces a rigorous, transparent Distance Network combining multiple estimators to determine H0 with high precision, including open-source software and data.

Findings

01

Local H0 is robustly determined within uncertainties.

02

Covariance-weighted combination yields 1.1% uncertainty.

03

Replacing SNe Ia with galaxy-based indicators minimally affects H0.

Abstract

The direct, empirical determination of the local value of the Hubble constant (H0) has markedly advanced thanks to improved instrumentation, measurement techniques, and distance estimators. However, combining determinations from different estimators is non-trivial, due to correlated calibrations and different analysis methodologies. Using covariance weighting and leveraging the broad and comprehensive community of experts, we constructed a rigorous and transparent Distance Network (DN) to find a consensus value and uncertainty for the local H0. All critically reviewed the available data sets, spanning parallaxes, detached eclipsing binaries, masers, Cepheids, the TRGB, Miras, JAGB stars, SN Ia, Surface Brightness Fluctuations, SN II, the Fundamental Plane, and Tully-Fisher relations and voted for indicators to define a `baseline' DN and others to assess robustness and sensitivity of the…

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