Inspecting the Cepheid distance ladder: The Hubble Space Telescope distance to the SNIa host galaxy NGC 5584

TL;DR

This paper provides an independent analysis of Cepheids in galaxy NGC 5584 to verify the local measurement of the Hubble Constant, finding consistent distances with previous studies and tighter period-amplitude relations.

Contribution

It introduces new photometric tools and a different light curve analysis method, confirming previous distance measurements and revealing tighter period-amplitude relations.

Findings

Distance modulus consistent with SH0ES measurements

No systematic difference in period and magnitude measurements

Tighter period-amplitude relations than previous studies

Abstract

The current tension between the direct and the early Universe measurements of the Hubble Constant, $H_0$, requires detailed scrutiny of all the data and methods used in the studies on both sides of the debate. The Cepheids in the type Ia supernova (SNIa) host galaxy NGC 5584 played a key role in the local measurement of $H_0$. The SH0ES project used the observations of this galaxy to derive a relation between Cepheids' periods and ratios of their amplitudes in different optical bands of the Hubble Space Telescope (HST), and used these relations to analyse the light curves of the Cepheids in around half of the current sample of local SNIa host galaxies. In this work, we present an independent detailed analysis of the Cepheids in NGC 5584. We employ different tools for our photometric analysis and a completely different method for our light curve analysis, and we do not find a systematic difference between our period and mean magnitude measurements compared to those reported by SH0ES. By adopting a period-luminosity relation calibrated by the Cepheids in the Milky Way, we measure a distance modulus $\mu=31.810\pm0.047$ (mag) which is in agreement with $\mu=31.786\pm0.046$ (mag) measured by SH0ES. In addition, the relations we find between periods and amplitude ratios of the Cepheids in NGC 5584 are significantly tighter than those of SH0ES and their potential impact on the direct $H_0$ measurement will be investigated in future studies.