The early spectrophotometric evolution of V1186 scorpii (nova scorpii 2004 NO. 1)

G. J. Schwarz; C. E. Woodward; M. F. Bode; A. Evans; S. P. Eyres; T. R. Geballe; R. D. Gehrz; M. A. Greenhouse; L. A. Helton; W. Liller; J. E. Lyke; D. K. Lynch; T. J. O'Brien; R. J. Rudy; R. W. Russell; S. N. Shore; S. G. Starrfield; T. Temim; J. W. Truran; C. C. Venturini; R. M. Wagner; R. E. Williams; R. Zamanov

doi:10.1086/519240

The early spectrophotometric evolution of V1186 scorpii (nova scorpii 2004 NO. 1)

G. J. Schwarz, C. E. Woodward, M. F. Bode, A. Evans, S. P. Eyres, T. R. Geballe, R. D. Gehrz, M. A. Greenhouse, L. A. Helton, W. Liller, J. E. Lyke, D. K. Lynch, T. J. O'Brien, R. J. Rudy, R. W. Russell, S. N. Shore, S. G. Starrfield, T. Temim, J. W. Truran, C. C. VenturiniR. M. Wagner, R. E. Williams, R. Zamanov

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Abstract

We report optical photometry and optical through mid-infrared spectroscopy of the classical nova V1186 Sco. This slowly developing nova had a complex light curve with multiple secondary peaks similar to those seen in PW Vul. The time to decline 2 mag, t₂, was 20 days, but the erratic nature of the light curve makes determination of intrinsic properties based on the decline time (e.g., luminosity) problematic, and the often-cited relationship of maximum magnitude versus the rate of decay of the light curve of Della Valle & Livio fails to yield a plausible distance. Spectra covering 0.35-35 μm were obtained in two separate epochs during the first year of outburst. The first set of spectra, taken about 2 months after visible maximum, are typical of a CO-type nova with narrow-line emission from H _I, Fe _II, O _I, and He _I. Later data, obtained between 260 and 380 days after maximum, reveal an emerging nebular spectrum. Spitzer spectra show weakening hydrogen recombination emission with the emergence of [Ne _II] (12.81 μm) as the strongest line. Strong emission from [Ne _III] (15.56 μm) is also detected. Photoionization models with low effective temperature sources and only marginal neon enhancement (Ne ∼ 1.3 Ne⊙) are consistent with these IR fine-structure neon lines indicating that V1186 Sco did not occur on a ONeMg white dwarf. In contrast, the slow and erratic light-curve evolution, spectral development, and photoionization analysis of the ejecta imply that the outburst occurred on a low-mass CO white dwarf. We note that this is the first time strong [Ne _II] lines have been detected so early in the outburst of a CO nova and suggest that the presence of mid-infrared neon lines is not directly indicative of a ONeMg nova event.

Original language	English (US)
Pages (from-to)	516-526
Number of pages	11
Journal	Astronomical Journal
Volume	134
Issue number	2
DOIs	https://doi.org/10.1086/519240
State	Published - Aug 2007

Keywords

Stars: dwarf novae
Stars: individual (V1186 Sco)

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Schwarz, G. J., Woodward, C. E., Bode, M. F., Evans, A., Eyres, S. P., Geballe, T. R., Gehrz, R. D., Greenhouse, M. A., Helton, L. A., Liller, W., Lyke, J. E., Lynch, D. K., O'Brien, T. J., Rudy, R. J., Russell, R. W., Shore, S. N., Starrfield, S. G., Temim, T., Truran, J. W., ... Zamanov, R. (2007). The early spectrophotometric evolution of V1186 scorpii (nova scorpii 2004 NO. 1). Astronomical Journal, 134(2), 516-526. https://doi.org/10.1086/519240

Schwarz, GJ, Woodward, CE, Bode, MF, Evans, A, Eyres, SP, Geballe, TR, Gehrz, RD, Greenhouse, MA, Helton, LA, Liller, W, Lyke, JE, Lynch, DK, O'Brien, TJ, Rudy, RJ, Russell, RW, Shore, SN, Starrfield, SG, Temim, T, Truran, JW, Venturini, CC, Wagner, RM, Williams, RE & Zamanov, R 2007, 'The early spectrophotometric evolution of V1186 scorpii (nova scorpii 2004 NO. 1)', Astronomical Journal, vol. 134, no. 2, pp. 516-526. https://doi.org/10.1086/519240

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title = "The early spectrophotometric evolution of V1186 scorpii (nova scorpii 2004 NO. 1)",

abstract = "We report optical photometry and optical through mid-infrared spectroscopy of the classical nova V1186 Sco. This slowly developing nova had a complex light curve with multiple secondary peaks similar to those seen in PW Vul. The time to decline 2 mag, t2, was 20 days, but the erratic nature of the light curve makes determination of intrinsic properties based on the decline time (e.g., luminosity) problematic, and the often-cited relationship of maximum magnitude versus the rate of decay of the light curve of Della Valle & Livio fails to yield a plausible distance. Spectra covering 0.35-35 μm were obtained in two separate epochs during the first year of outburst. The first set of spectra, taken about 2 months after visible maximum, are typical of a CO-type nova with narrow-line emission from H I, Fe II, O I, and He I. Later data, obtained between 260 and 380 days after maximum, reveal an emerging nebular spectrum. Spitzer spectra show weakening hydrogen recombination emission with the emergence of [Ne II] (12.81 μm) as the strongest line. Strong emission from [Ne III] (15.56 μm) is also detected. Photoionization models with low effective temperature sources and only marginal neon enhancement (Ne ∼ 1.3 Ne⊙) are consistent with these IR fine-structure neon lines indicating that V1186 Sco did not occur on a ONeMg white dwarf. In contrast, the slow and erratic light-curve evolution, spectral development, and photoionization analysis of the ejecta imply that the outburst occurred on a low-mass CO white dwarf. We note that this is the first time strong [Ne II] lines have been detected so early in the outburst of a CO nova and suggest that the presence of mid-infrared neon lines is not directly indicative of a ONeMg nova event.",

keywords = "Stars: dwarf novae, Stars: individual (V1186 Sco)",

author = "Schwarz, {G. J.} and Woodward, {C. E.} and Bode, {M. F.} and A. Evans and Eyres, {S. P.} and Geballe, {T. R.} and Gehrz, {R. D.} and Greenhouse, {M. A.} and Helton, {L. A.} and W. Liller and Lyke, {J. E.} and Lynch, {D. K.} and O'Brien, {T. J.} and Rudy, {R. J.} and Russell, {R. W.} and Shore, {S. N.} and Starrfield, {S. G.} and T. Temim and Truran, {J. W.} and Venturini, {C. C.} and Wagner, {R. M.} and Williams, {R. E.} and R. Zamanov",

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AU - Schwarz, G. J.

AU - Woodward, C. E.

AU - Bode, M. F.

AU - Evans, A.

AU - Eyres, S. P.

AU - Geballe, T. R.

AU - Gehrz, R. D.

AU - Greenhouse, M. A.

AU - Helton, L. A.

AU - Liller, W.

AU - Lyke, J. E.

AU - Lynch, D. K.

AU - O'Brien, T. J.

AU - Rudy, R. J.

AU - Russell, R. W.

AU - Shore, S. N.

AU - Starrfield, S. G.

AU - Temim, T.

AU - Truran, J. W.

AU - Venturini, C. C.

AU - Wagner, R. M.

AU - Williams, R. E.

AU - Zamanov, R.

PY - 2007/8

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N2 - We report optical photometry and optical through mid-infrared spectroscopy of the classical nova V1186 Sco. This slowly developing nova had a complex light curve with multiple secondary peaks similar to those seen in PW Vul. The time to decline 2 mag, t2, was 20 days, but the erratic nature of the light curve makes determination of intrinsic properties based on the decline time (e.g., luminosity) problematic, and the often-cited relationship of maximum magnitude versus the rate of decay of the light curve of Della Valle & Livio fails to yield a plausible distance. Spectra covering 0.35-35 μm were obtained in two separate epochs during the first year of outburst. The first set of spectra, taken about 2 months after visible maximum, are typical of a CO-type nova with narrow-line emission from H I, Fe II, O I, and He I. Later data, obtained between 260 and 380 days after maximum, reveal an emerging nebular spectrum. Spitzer spectra show weakening hydrogen recombination emission with the emergence of [Ne II] (12.81 μm) as the strongest line. Strong emission from [Ne III] (15.56 μm) is also detected. Photoionization models with low effective temperature sources and only marginal neon enhancement (Ne ∼ 1.3 Ne⊙) are consistent with these IR fine-structure neon lines indicating that V1186 Sco did not occur on a ONeMg white dwarf. In contrast, the slow and erratic light-curve evolution, spectral development, and photoionization analysis of the ejecta imply that the outburst occurred on a low-mass CO white dwarf. We note that this is the first time strong [Ne II] lines have been detected so early in the outburst of a CO nova and suggest that the presence of mid-infrared neon lines is not directly indicative of a ONeMg nova event.

AB - We report optical photometry and optical through mid-infrared spectroscopy of the classical nova V1186 Sco. This slowly developing nova had a complex light curve with multiple secondary peaks similar to those seen in PW Vul. The time to decline 2 mag, t2, was 20 days, but the erratic nature of the light curve makes determination of intrinsic properties based on the decline time (e.g., luminosity) problematic, and the often-cited relationship of maximum magnitude versus the rate of decay of the light curve of Della Valle & Livio fails to yield a plausible distance. Spectra covering 0.35-35 μm were obtained in two separate epochs during the first year of outburst. The first set of spectra, taken about 2 months after visible maximum, are typical of a CO-type nova with narrow-line emission from H I, Fe II, O I, and He I. Later data, obtained between 260 and 380 days after maximum, reveal an emerging nebular spectrum. Spitzer spectra show weakening hydrogen recombination emission with the emergence of [Ne II] (12.81 μm) as the strongest line. Strong emission from [Ne III] (15.56 μm) is also detected. Photoionization models with low effective temperature sources and only marginal neon enhancement (Ne ∼ 1.3 Ne⊙) are consistent with these IR fine-structure neon lines indicating that V1186 Sco did not occur on a ONeMg white dwarf. In contrast, the slow and erratic light-curve evolution, spectral development, and photoionization analysis of the ejecta imply that the outburst occurred on a low-mass CO white dwarf. We note that this is the first time strong [Ne II] lines have been detected so early in the outburst of a CO nova and suggest that the presence of mid-infrared neon lines is not directly indicative of a ONeMg nova event.

KW - Stars: dwarf novae

KW - Stars: individual (V1186 Sco)

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ER -

The early spectrophotometric evolution of V1186 scorpii (nova scorpii 2004 NO. 1)

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