The Expanding Fireball of Nova Delphini 2013
Abstract
A classical nova occurs when material accreting onto the surface of a white dwarf in a close binary system ignites in a thermonuclear runaway. Complex structure observed in the ejecta at lat stages could result from interactions with the companion during the common-envelop phase. Alternatively, the explosion could be intrinsically bipolar, resulting from a localized ignition on the surface of the white dwarf or as a consequence of rotational distortion. Studying the structure of novae during the earliest phases is challenging because of the high spatial resolution needed to measure their small sizes. Here we report near-infrared interferometric measurements of the angular size of Nova Delphini in 2013, starting one day after the explosion and continuing with extensive time coverage during the first 43 days. Changes in the apparent expansion rate can be explained by and explosion model consisting of an optically thick core surrounded by a diffuse envelope. The optical depth of the ejected material changes as it expands. We detect an ellipticity in the light distribution, suggesting a prolate or bipolar structure that develops as early as the second day. Combining the angular expansion rate with radial velocity measurements, we derive a geometric distance to the nova of 4.54 +/- 0.59 kilparsecs from the Sun.
Document Details
- Document Type
- Technical Report
- Publication Date
- Oct 26, 2014
- Accession Number
- ADA610878
Entities
People
- B. Kloppenborg
- C. D. Farrington
- D. R. Gies
- G. H. Schaefer
- I. Tallon-bosc
- J. D. Monnier
- Nicholas R. Scott
- O. Chesneau
- S. T. Ridgway
- T. Ten Brummelaar
Organizations
- United States Naval Observatory