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A distance to the Large Magellanic Cloud that is precise to one per cent

Author

Listed:
  • G. Pietrzyński

    (Nicolaus Copernicus Astronomical Centre
    Departamento de Astronomìa)

  • D. Graczyk

    (Nicolaus Copernicus Astronomical Centre
    Departamento de Astronomìa
    Millennium Institute of Astrophysics (MAS))

  • A. Gallenne

    (European Southern Observatory
    Université Côte d’Azur, Observatoire de la Côte d’Azur, CNRS, Laboratoire Lagrange)

  • W. Gieren

    (Departamento de Astronomìa)

  • I. B. Thompson

    (Carnegie Observatories)

  • B. Pilecki

    (Nicolaus Copernicus Astronomical Centre)

  • P. Karczmarek

    (Warsaw University Observatory)

  • M. Górski

    (Departamento de Astronomìa)

  • K. Suchomska

    (Warsaw University Observatory)

  • M. Taormina

    (Nicolaus Copernicus Astronomical Centre)

  • B. Zgirski

    (Nicolaus Copernicus Astronomical Centre)

  • P. Wielgórski

    (Nicolaus Copernicus Astronomical Centre)

  • Z. Kołaczkowski

    (Nicolaus Copernicus Astronomical Centre
    Wrocław University)

  • P. Konorski

    (Warsaw University Observatory)

  • S. Villanova

    (Departamento de Astronomìa)

  • N. Nardetto

    (Université Côte d’Azur, Observatoire de la Côte d’Azur, CNRS, Laboratoire Lagrange)

  • P. Kervella

    (LESIA, Observatoire de Paris, Université PSL, CNRS, Sorbonne Université, Univ. Paris Diderot, Sorbonne Paris Cité)

  • F. Bresolin

    (Institute for Astronomy)

  • R. P. Kudritzki

    (Institute for Astronomy
    Munich University Observatory)

  • J. Storm

    (Leibniz Institute for Astrophysics)

  • R. Smolec

    (Nicolaus Copernicus Astronomical Centre)

  • W. Narloch

    (Nicolaus Copernicus Astronomical Centre)

Abstract

In the era of precision cosmology, it is essential to determine the Hubble constant empirically with an accuracy of one per cent or better1. At present, the uncertainty on this constant is dominated by the uncertainty in the calibration of the Cepheid period–luminosity relationship2,3 (also known as the Leavitt law). The Large Magellanic Cloud has traditionally served as the best galaxy with which to calibrate Cepheid period–luminosity relations, and as a result has become the best anchor point for the cosmic distance scale4,5. Eclipsing binary systems composed of late-type stars offer the most precise and accurate way to measure the distance to the Large Magellanic Cloud. Currently the limit of the precision attainable with this technique is about two per cent, and is set by the precision of the existing calibrations of the surface brightness–colour relation5,6. Here we report a calibration of the surface brightness–colour relation with a precision of 0.8 per cent. We use this calibration to determine a geometrical distance to the Large Magellanic Cloud that is precise to 1 per cent based on 20 eclipsing binary systems. The final distance is 49.59 ± 0.09 (statistical) ± 0.54 (systematic) kiloparsecs.

Suggested Citation

  • G. Pietrzyński & D. Graczyk & A. Gallenne & W. Gieren & I. B. Thompson & B. Pilecki & P. Karczmarek & M. Górski & K. Suchomska & M. Taormina & B. Zgirski & P. Wielgórski & Z. Kołaczkowski & P. Konorsk, 2019. "A distance to the Large Magellanic Cloud that is precise to one per cent," Nature, Nature, vol. 567(7747), pages 200-203, March.
    • Handle: RePEc:nat:nature:v:567:y:2019:i:7747:d:10.1038_s41586-019-0999-4
    DOI: 10.1038/s41586-019-0999-4
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