A very luminous, highly extinguished, very fast nova - V1721 Aquilae

TL;DR

V1721 Aquilae is a very fast, luminous, and highly extinguished nova near the Galactic plane, with high expansion velocities and unique spectral features, suggesting a possible recurrent nova nature or a bright classical nova.

Contribution

This study provides detailed photometric and spectroscopic analysis of V1721 Aquilae, revealing its high velocity, extinction, and potential binary configuration, which were previously uncharacterized.

Findings

V1721 Aql is a very fast, luminous nova with high extinction.

Spectroscopy shows very high expansion velocities (~6450 km/s).

Modeling supports a face-on ejecta geometry and a possible sub-giant secondary.

Abstract

Fast novae are primarily located within the plane of the Galaxy, slow novae are found within its bulge. Because of high interstellar extinction along the line of sight many novae lying close to the plane are missed and only the brightest seen. One nova lying very close to the Galactic plane is V1721 Aquilae, discovered in outburst on 2008 September 22. Spectra obtained 2.69 days after outburst revealed very high expansion velocities (FWHM ~6450 km/s). In this paper we have used available pre- and post-outburst photometry and post-outburst spectroscopy to conclude that the object is a very fast, luminous, and highly extinguished A_V=11.6+/-0.2) nova system with an average ejection velocity of ~3400 km/s. Pre-outburst near-IR colours from 2MASS indicate that at quiescence the object is similar to many quiescent CNe and appears to have a main sequence/sub-giant secondary rather than a giant. Based on the speed of decline of the nova and its emission line profiles we hypothesise that the axis ratio of the nova ejecta is ~1.4 and that its inclination is such that the central binary accretion disc is face-on to the observer. The accretion disc's blue contribution to the system's near-IR quiescent colours may be significant. Simple models of the nova ejecta have been constructed using the morphological modelling code XS5, and the results support the above hypothesis. Spectral classification of this object has been difficult owing to low S/N levels and high extinction, which has eliminated all evidence of any He/N or FeII emission within the spectra. We suggest two possibilities for the nature of V1721 Aql: that it is a U Sco type RN with a sub-giant secondary or, less likely, that it is a highly energetic bright and fast classical nova with a main sequence secondary. Future monitoring of the object for possible RN episodes may be worthwhile, as would archival searches for previous outbursts.