Galactic Extinction: How Many Novae Does it Hide and How Does it Affect the Galactic Nova Rate?

Abstract

There is a longstanding discrepancy between the observed Galactic classical nova rate of 10 yr-1 and the predicted rate from Galactic models of 30--50 yr-1. One explanation for this discrepancy is that many novae are hidden by interstellar extinction, but the degree to which dust can obscure novae is poorly constrained. We use newly available all-sky three-dimensional dust maps to compare the brightness and spatial distribution of known novae to that predicted from relatively simple models in which novae trace Galactic stellar mass. We find that only half ( 48\%) of novae are expected to be easily detectable (g 15) with current all-sky optical surveys such as the All-Sky Automated Survey for Supernovae (ASAS-SN). This fraction is much lower than previously estimated, showing that dust does substantially affect nova detection in the optical. By comparing complementary survey results from ASAS-SN, OGLE-IV, and the Palomar Gattini IR-survey in the context of our modeling, we find a tentative Galactic nova rate of 40 yr-1, though this could decrease to as low as 30 yr-1 depending on the assumed distribution of novae within the Galaxy. These preliminary estimates will be improved in future work through more sophisticated modeling of nova detection in ASAS-SN and other surveys.