Journal
ASTROPHYSICAL JOURNAL LETTERS
Volume 896, Issue 2, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.3847/2041-8213/ab9900
Keywords
Cepheid distance; Hubble constant; Cosmology; Distance indicators; CCD photometry; Light curves; Cepheid variable stars
Categories
Funding
- National Aeronautics and Space Administration (NASA) from the Space Telescope Science Institute (STScI) [GO-14648, 15146]
- NASA [NAS 5-26555]
- Munich Institute for Astro-and Particle Physics (MIAPP) of the DFG cluster of excellence Origin and Structure of the Universe
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The accuracy of the Hubble constant measured with extragalactic Cepheids depends on robust photometry and background estimation in the presence of stellar crowding. The conventional approach accounts for crowding by sampling backgrounds near Cepheids and assuming that they match those at their positions. We show a direct consequence of crowding by unresolved sources at Cepheid sites is a reduction in the fractional amplitudes of their light curves. We use a simple analytical expression to infer crowding directly from the light curve amplitudes of >200 Cepheids in three Type Ia supernovae hosts and NGC 4258 as observed by Hubble Space Telescope-the first near-infrared amplitudes measured beyond the Magellanic Clouds. Where local crowding is minimal, we find near-infrared amplitudes match Milky Way Cepheids at the same periods. At greater stellar densities we find that the empirically measured amplitudes match the values predicted (with no free parameters) from crowding assessed in the conventional way from local regions, confirming their accuracy for estimating the background at the Cepheid locations. Extragalactic Cepheid amplitudes would need to be similar to 20% smaller than measured to indicate additional, unrecognized crowding as a primary source of the present discrepancy inH(0). Rather, we find the amplitude data constrains a systematic mis-estimate of Cepheid backgrounds to be 0.029 0.037 mag, more than 5x smaller than the size of the present similar to 0.2 mag tension inH(0). We conclude that systematic errors in Cepheid backgrounds do not provide a plausible resolution to the Hubble tension.
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