Six months of mass outflow and inclined rings in the ejecta of V1494 Aql

S P S Eyres; I Heywood; T J O'Brien; R J Ivison; T W B Muxlow; V G Elkin

Six months of mass outflow and inclined rings in the ejecta of V1494 Aql

S P S Eyres, I Heywood, T J O'Brien, R J Ivison, T W B Muxlow, V G Elkin

Research output: Contribution to journal › Article › peer-review

Abstract

V1494 Aql was a very fast nova which reached a visual maximum of m_v~= 4.0 by the end of 1999 December 3. We report observations from 4 to 284 d after discovery, including submillimetre- and centimetre-band fluxes, a single MERLIN image and optical spectroscopy in the 410 to 700 nm range. The extent of the radio continuum emission is consistent with a recent lower distance estimate of 1.6 kpc. We conclude that the optical and radio emission arises from the same expanding ejecta. We show that these observations are not consistent with simple kinematical spherical shell models used in the past to explain the rise and fall of the radio flux density in these objects. The resolved remnant structure is consistent with an inclined ring of enhanced density within the ejecta. Optical spectroscopy indicates likely continued mass ejection for over 195 d, with the material becoming optically thin in the visible sometime between 195 and 285 d after outburst.

Original language	English
Pages (from-to)	1019-1024
Number of pages	6
Journal	Monthly Notices of the Royal Astronomical Society
Volume	358
Publication status	Published - 2005

Keywords

stars: individual: V1494 Aql
novae
cataclysmic variables
stars: winds
outflows
radio continuum: stars

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http://adsabs.harvard.edu/abs/2005MNRAS.358.1019E

Cite this

@article{bb453dda198b44629b6cedb098c8e0fc,

title = "Six months of mass outflow and inclined rings in the ejecta of V1494 Aql",

abstract = "V1494 Aql was a very fast nova which reached a visual maximum of mv~= 4.0 by the end of 1999 December 3. We report observations from 4 to 284 d after discovery, including submillimetre- and centimetre-band fluxes, a single MERLIN image and optical spectroscopy in the 410 to 700 nm range. The extent of the radio continuum emission is consistent with a recent lower distance estimate of 1.6 kpc. We conclude that the optical and radio emission arises from the same expanding ejecta. We show that these observations are not consistent with simple kinematical spherical shell models used in the past to explain the rise and fall of the radio flux density in these objects. The resolved remnant structure is consistent with an inclined ring of enhanced density within the ejecta. Optical spectroscopy indicates likely continued mass ejection for over 195 d, with the material becoming optically thin in the visible sometime between 195 and 285 d after outburst.",

keywords = "stars: individual: V1494 Aql, novae, cataclysmic variables, stars: winds, outflows, radio continuum: stars",

author = "Eyres, {S P S} and I Heywood and O'Brien, {T J} and Ivison, {R J} and Muxlow, {T W B} and Elkin, {V G}",

year = "2005",

language = "English",

volume = "358",

pages = "1019--1024",

journal = "Royal Astronomical Society. Monthly Notices",

issn = "1365-2966",

publisher = "Oxford University Press",

}

TY - JOUR

T1 - Six months of mass outflow and inclined rings in the ejecta of V1494 Aql

AU - Eyres, S P S

AU - Heywood, I

AU - O'Brien, T J

AU - Ivison, R J

AU - Muxlow, T W B

AU - Elkin, V G

PY - 2005

Y1 - 2005

N2 - V1494 Aql was a very fast nova which reached a visual maximum of mv~= 4.0 by the end of 1999 December 3. We report observations from 4 to 284 d after discovery, including submillimetre- and centimetre-band fluxes, a single MERLIN image and optical spectroscopy in the 410 to 700 nm range. The extent of the radio continuum emission is consistent with a recent lower distance estimate of 1.6 kpc. We conclude that the optical and radio emission arises from the same expanding ejecta. We show that these observations are not consistent with simple kinematical spherical shell models used in the past to explain the rise and fall of the radio flux density in these objects. The resolved remnant structure is consistent with an inclined ring of enhanced density within the ejecta. Optical spectroscopy indicates likely continued mass ejection for over 195 d, with the material becoming optically thin in the visible sometime between 195 and 285 d after outburst.

AB - V1494 Aql was a very fast nova which reached a visual maximum of mv~= 4.0 by the end of 1999 December 3. We report observations from 4 to 284 d after discovery, including submillimetre- and centimetre-band fluxes, a single MERLIN image and optical spectroscopy in the 410 to 700 nm range. The extent of the radio continuum emission is consistent with a recent lower distance estimate of 1.6 kpc. We conclude that the optical and radio emission arises from the same expanding ejecta. We show that these observations are not consistent with simple kinematical spherical shell models used in the past to explain the rise and fall of the radio flux density in these objects. The resolved remnant structure is consistent with an inclined ring of enhanced density within the ejecta. Optical spectroscopy indicates likely continued mass ejection for over 195 d, with the material becoming optically thin in the visible sometime between 195 and 285 d after outburst.

KW - stars: individual: V1494 Aql

KW - novae

KW - cataclysmic variables

KW - stars: winds

KW - outflows

KW - radio continuum: stars

M3 - Article

VL - 358

SP - 1019

EP - 1024

JO - Royal Astronomical Society. Monthly Notices

JF - Royal Astronomical Society. Monthly Notices

SN - 1365-2966

ER -

Six months of mass outflow and inclined rings in the ejecta of V1494 Aql

Abstract

Keywords

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