Discovery of a new photometric sub-class of faint and fast classical novae

TL;DR

This paper reports the discovery of a new photometric sub-class of faint and fast classical novae, expanding the understanding of nova diversity and challenging existing relations like the MMRD.

Contribution

The study uncovers a previously unknown sub-class of faint, fast novae, suggesting a more complex parameter space in nova physics beyond the traditional MMRD relation.

Findings

Identification of a new faint, fast nova sub-class.

Inconsistency of these novae with the MMRD relation.

Spectroscopic similarity to classical novae.

Abstract

We present photometric and spectroscopic follow-up of a sample of extragalactic novae discovered by the Palomar 60-inch telescope during a search for "Fast Transients In Nearest Galaxies" (P60-FasTING). Designed as a fast cadence (1-day) and deep (g < 21 mag) survey, P60-FasTING was particularly sensitive to short-lived and faint optical transients. The P60-FasTING nova sample includes 10 novae in M31, 6 in M81, 3 in M82, 1 in NGC2403 and 1 in NGC891. This significantly expands the known sample of extragalactic novae beyond the Local Group, including the first discoveries in a starburst environment. Surprisingly, our photometry shows that this sample is quite inconsistent with the canonical Maximum Magnitude Rate of Decline (MMRD) relation for classical novae. Furthermore, the spectra of the P60-FasTING sample are indistinguishable from classical novae. We suggest that we have uncovered a sub-class of faint and fast classical novae in a new phase space in luminosity-timescale of optical transients. Thus, novae span two orders of magnitude in both luminosity and time. Perhaps, the MMRD, which is characterized only by the white dwarf mass, was an over-simplification. Nova physics appears to be characterized by quite a rich four-dimensional parameter space in white dwarf mass, temperature, composition and accretion rate.