Are Type Ia Supernovae in Restframe H Brighter in More Massive Galaxies?

Abstract

We analyze 143 Type Ia supernovae (SNeIa) observed in H band (1.6-1.8 μm) and find SNeIa are intrinsically brighter in H-band with increasing host galaxy stellar mass. We find SNeIa in galaxies more massive than 1010.43 M are 0.13 0.04 mag brighter in H than SNeIa in less massive galaxies. The same set of SNeIa observed at optical wavelengths, after width-color-luminosity corrections, exhibit a 0.10 0.03 mag offset in the Hubble residuals. We observe an outlier population (| H max| > 0.5 mag) in the H band and show that removing the outlier population moves the mass threshold to 1010.65 M and reduces the step in H band to 0.08 0.04 mag, but the equivalent optical mass step is increased to 0.13 0.04 mag. We conclude the outliers do not drive the brightness--host-mass correlation. Less massive galaxies preferentially host more higher-stretch SNeIa, which are intrinsically brighter and bluer. It is only after correction for width-luminosity and color-luminosity relationships that SNeIa have brighter optical Hubble residuals in more massive galaxies. Thus finding SNeIa are intrinsically brighter in H in more massive galaxies is an opposite correlation to the intrinsic (pre-width-luminosity correction) optical brightness. If dust and the treatment of intrinsic color variation were the main driver of the host galaxy mass correlation, we would not expect a correlation of brighter H-band SNeIa in more massive galaxies.