Infrared Period-Luminosity-Metallicity Relations and the Evolution of Metallicity Gradient

Huajian Wang

Published 2024-10-14Version 1

We calibrate the period-luminosity-metallicity (PLZ) relations of classical Cepheid (DCEP) in three near-infrared bands ($J$, $H$, $K_S$) and four mid-infrared bands ($W1$, $W2$, $[3.6]$ and $[4.5]$). The PLZ relations of $W1$ and $W2$ bands are calibrated for the first time. The distance moduli of the Large Magellanic Cloud estimated by these PLZ relations are in good agreement with the most accurate published value measured by geometric methods. These seven homogenous PLZ relations can aid in obtaining more robust distances for DCEPs. Applying our PLZ relations to trace the metallicity gradient of the Galactic disc, we find that the gradient for sources with logarithmic age less than 7.67 is almost fixed: $-0.056 \,\pm\, 0.002 \,\textrm{dex}\, \textrm{kpc}^{-1}$; the gradient for sources with logarithmic age greater than 7.67 is period-dependent (i.e., age-dependent): $(-0.074 \,\pm\, 0.003)+(-0.022 \,\pm\, 0.002)\log P)\,\textrm{dex}\, \textrm{kpc}^{-1}$. In addition, we find that DCEPs in the $R_{GC} \gtrsim 14.5\,\textrm{kpc}$ region tend to migrate toward the Galactic center, while DCEPs in the $10.5\,\textrm{kpc} \lesssim R_{GC} \lesssim 14.5\,\textrm{kpc}$ region tend to migrate toward the anti-Galactic center, which may be the reason for the obvious break of the metallicity gradient at $R_{GC} \thickapprox 14.5\,\textrm{kpc}$. We conclude that the evolution of the metallicity gradient of DCEPs may be related to their radial migration.