THE 2011 OUTBURST OF RECURRENT NOVA T Pyx: X-RAY OBSERVATIONS EXPOSE THE WHITE DWARF MASS AND EJECTION DYNAMICS

The recurrent nova T Pyx underwent its sixth historical outburst in 2011, and became the subject of an intensive multi-wavelength observational campaign. We analyze data from the Swift and Suzaku satellites to produce a detailed X-ray light curve augmented by epochs of spectral information. X-ray ob...

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Published in	The Astrophysical journal Vol. 788; no. 2; pp. 130 - 13
Main Authors	Chomiuk, Laura, Nelson, Thomas, Mukai, Koji, Sokoloski, J. L., Rupen, Michael P., Page, Kim L., Osborne, Julian P., Kuulkers, Erik, Mioduszewski, Amy J., Roy, Nirupam, Weston, Jennifer, Krauss, Miriam I.
Format	Journal Article
Language	English
Published	United States 20.06.2014
Subjects	ASTROPHYSICS, COSMOLOGY AND ASTRONOMY Delay DETECTION Ejecta Ejection EV RANGE HARD X RADIATION KEV RANGE Light curve MASS Nova NOVAE Outbursts OXYGEN PHOTOSPHERE PLASMA SOFT X RADIATION VISIBLE RADIATION WAVELENGTHS WHITE DWARF STARS X-rays
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ISSN	0004-637X 1538-4357
DOI	10.1088/0004-637X/788/2/130

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Abstract	The recurrent nova T Pyx underwent its sixth historical outburst in 2011, and became the subject of an intensive multi-wavelength observational campaign. We analyze data from the Swift and Suzaku satellites to produce a detailed X-ray light curve augmented by epochs of spectral information. X-ray observations yield mostly non-detections in the first four months of outburst, but both a super-soft and hard X-ray component rise rapidly after Day 115. The super-soft X-ray component, attributable to the photosphere of the nuclear-burning white dwarf, is relatively cool (~45 eV) and implies that the white dwarf in T Pyx is significantly below the Chandrasekhar mass (~1 M sub([odot])). The late turn-on time of the super-soft component yields a large nova ejecta mass ([gap]10 super(-5) M sub([odot])), consistent with estimates at other wavelengths. The hard X-ray component is well fit by a ~1 keV thermal plasma, and is attributed to shocks internal to the 2011 nova ejecta. The presence of a strong oxygen line in this thermal plasma on Day 194 requires a significantly super-solar abundance of oxygen and implies that the ejecta are polluted by white dwarf material. The X-ray light curve can be explained by a dual-phase ejection, with a significant delay between the first and second ejection phases, and the second ejection finally released two months after outburst. A delayed ejection is consistent with optical and radio observations of T Pyx, but the physical mechanism producing such a delay remains a mystery.
AbstractList	The recurrent nova T Pyx underwent its sixth historical outburst in 2011, and became the subject of an intensive multi-wavelength observational campaign. We analyze data from the Swift and Suzaku satellites to produce a detailed X-ray light curve augmented by epochs of spectral information. X-ray observations yield mostly non-detections in the first four months of outburst, but both a super-soft and hard X-ray component rise rapidly after Day 115. The super-soft X-ray component, attributable to the photosphere of the nuclear-burning white dwarf, is relatively cool (~45 eV) and implies that the white dwarf in T Pyx is significantly below the Chandrasekhar mass (~1 M sub([odot])). The late turn-on time of the super-soft component yields a large nova ejecta mass ([gap]10 super(-5) M sub([odot])), consistent with estimates at other wavelengths. The hard X-ray component is well fit by a ~1 keV thermal plasma, and is attributed to shocks internal to the 2011 nova ejecta. The presence of a strong oxygen line in this thermal plasma on Day 194 requires a significantly super-solar abundance of oxygen and implies that the ejecta are polluted by white dwarf material. The X-ray light curve can be explained by a dual-phase ejection, with a significant delay between the first and second ejection phases, and the second ejection finally released two months after outburst. A delayed ejection is consistent with optical and radio observations of T Pyx, but the physical mechanism producing such a delay remains a mystery. The recurrent nova T Pyx underwent its sixth historical outburst in 2011, and became the subject of an intensive multi-wavelength observational campaign. We analyze data from the Swift and Suzaku satellites to produce a detailed X-ray light curve augmented by epochs of spectral information. X-ray observations yield mostly non-detections in the first four months of outburst, but both a super-soft and hard X-ray component rise rapidly after Day 115. The super-soft X-ray component, attributable to the photosphere of the nuclear-burning white dwarf, is relatively cool (∼45 eV) and implies that the white dwarf in T Pyx is significantly below the Chandrasekhar mass (∼1 M {sub ☉}). The late turn-on time of the super-soft component yields a large nova ejecta mass (≳ 10{sup –5} M {sub ☉}), consistent with estimates at other wavelengths. The hard X-ray component is well fit by a ∼1 keV thermal plasma, and is attributed to shocks internal to the 2011 nova ejecta. The presence of a strong oxygen line in this thermal plasma on Day 194 requires a significantly super-solar abundance of oxygen and implies that the ejecta are polluted by white dwarf material. The X-ray light curve can be explained by a dual-phase ejection, with a significant delay between the first and second ejection phases, and the second ejection finally released two months after outburst. A delayed ejection is consistent with optical and radio observations of T Pyx, but the physical mechanism producing such a delay remains a mystery.
Author	Page, Kim L. Roy, Nirupam Mukai, Koji Chomiuk, Laura Mioduszewski, Amy J. Nelson, Thomas Osborne, Julian P. Sokoloski, J. L. Kuulkers, Erik Weston, Jennifer Rupen, Michael P. Krauss, Miriam I.
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Snippet	The recurrent nova T Pyx underwent its sixth historical outburst in 2011, and became the subject of an intensive multi-wavelength observational campaign. We...
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SubjectTerms	ASTROPHYSICS, COSMOLOGY AND ASTRONOMY Delay DETECTION Ejecta Ejection EV RANGE HARD X RADIATION KEV RANGE Light curve MASS Nova NOVAE Outbursts OXYGEN PHOTOSPHERE PLASMA SOFT X RADIATION VISIBLE RADIATION WAVELENGTHS WHITE DWARF STARS X-rays
Title	THE 2011 OUTBURST OF RECURRENT NOVA T Pyx: X-RAY OBSERVATIONS EXPOSE THE WHITE DWARF MASS AND EJECTION DYNAMICS
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