The chandra planetary nebula survey (chanplaNS). III. X-ray emission from the central stars of planetary nebulae

R. Montez; J. H. Kastner; B. Balick; E. Behar; E. Blackman; V. Bujarrabal; Y. H. Chu; R. L.M. Corradi; O. De Marco; A. Frank; M. Freeman; D. J. Frew; M. A. Guerrero; D. Jones; J. A. Lopez; B. Miszalski; J. Nordhaus; Q. A. Parker; R. Sahai; C. Sandin; D. Schonberner; N. Soker; J. L. Sokoloski; M. Steffen; J. A. Toalá; T. Ueta; E. Villaver; A. Zijlstra

doi:10.1088/0004-637X/800/1/8

The chandra planetary nebula survey (chanplaNS). III. X-ray emission from the central stars of planetary nebulae

R. Montez, J. H. Kastner, B. Balick, E. Behar, E. Blackman, V. Bujarrabal, Y. H. Chu, R. L.M. Corradi, O. De Marco, A. Frank, M. Freeman, D. J. Frew, M. A. Guerrero, D. Jones, J. A. Lopez, B. Miszalski, J. Nordhaus, Q. A. Parker, R. Sahai, C. SandinD. Schonberner, N. Soker, J. L. Sokoloski, M. Steffen, J. A. Toalá, T. Ueta, E. Villaver, A. Zijlstra

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Abstract

We present X-ray spectral analysis of 20 point-like X-ray sources detected in Chandra Planetary Nebula Survey observations of 59 planetary nebulae (PNe) in the solar neighborhood. Most of these 20 detections are associated with luminous central stars within relatively young, compact nebulae. The vast majority of these point-like X-ray-emitting sources at PN cores display relatively "hard" (≥0.5 keV) X-ray emission components that are unlikely to be due to photospheric emission from the hot central stars (CSPN). Instead, we demonstrate that these sources are well modeled by optically thin thermal plasmas. From the plasma properties, we identify two classes of CSPN X-ray emission: (1) high-temperature plasmas with X-ray luminosities, LX, that appear uncorrelated with the CSPN bolometric luminosity, L bol and (2) lower-temperature plasmas with L X/L bol 10^-7. We suggest these two classes correspond to the physical processes of magnetically active binary companions and self-shocking stellar winds, respectively. In many cases this conclusion is supported by corroborative multiwavelength evidence for the wind and binary properties of the PN central stars. By thus honing in on the origins of X-ray emission from PN central stars, we enhance the ability of CSPN X-ray sources to constrain models of PN shaping that invoke wind interactions and binarity.

Original language	English (US)
Article number	8
Journal	Astrophysical Journal
Volume	800
Issue number	1
DOIs	https://doi.org/10.1088/0004-637X/800/1/8
State	Published - Feb 10 2015
Externally published	Yes

Keywords

general
planetary nebulae

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

Online availability

10.1088/0004-637X/800/1/8

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Montez, R., Kastner, J. H., Balick, B., Behar, E., Blackman, E., Bujarrabal, V., Chu, Y. H., Corradi, R. L. M., De Marco, O., Frank, A., Freeman, M., Frew, D. J., Guerrero, M. A., Jones, D., Lopez, J. A., Miszalski, B., Nordhaus, J., Parker, Q. A., Sahai, R., ... Zijlstra, A. (2015). The chandra planetary nebula survey (chanplaNS). III. X-ray emission from the central stars of planetary nebulae. Astrophysical Journal, 800(1), Article 8. https://doi.org/10.1088/0004-637X/800/1/8

Montez, R, Kastner, JH, Balick, B, Behar, E, Blackman, E, Bujarrabal, V, Chu, YH, Corradi, RLM, De Marco, O, Frank, A, Freeman, M, Frew, DJ, Guerrero, MA, Jones, D, Lopez, JA, Miszalski, B, Nordhaus, J, Parker, QA, Sahai, R, Sandin, C, Schonberner, D, Soker, N, Sokoloski, JL, Steffen, M, Toalá, JA, Ueta, T, Villaver, E & Zijlstra, A 2015, 'The chandra planetary nebula survey (chanplaNS). III. X-ray emission from the central stars of planetary nebulae', Astrophysical Journal, vol. 800, no. 1, 8. https://doi.org/10.1088/0004-637X/800/1/8

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abstract = "We present X-ray spectral analysis of 20 point-like X-ray sources detected in Chandra Planetary Nebula Survey observations of 59 planetary nebulae (PNe) in the solar neighborhood. Most of these 20 detections are associated with luminous central stars within relatively young, compact nebulae. The vast majority of these point-like X-ray-emitting sources at PN cores display relatively {"}hard{"} (≥0.5 keV) X-ray emission components that are unlikely to be due to photospheric emission from the hot central stars (CSPN). Instead, we demonstrate that these sources are well modeled by optically thin thermal plasmas. From the plasma properties, we identify two classes of CSPN X-ray emission: (1) high-temperature plasmas with X-ray luminosities, LX, that appear uncorrelated with the CSPN bolometric luminosity, L bol and (2) lower-temperature plasmas with L X/L bol 10-7. We suggest these two classes correspond to the physical processes of magnetically active binary companions and self-shocking stellar winds, respectively. In many cases this conclusion is supported by corroborative multiwavelength evidence for the wind and binary properties of the PN central stars. By thus honing in on the origins of X-ray emission from PN central stars, we enhance the ability of CSPN X-ray sources to constrain models of PN shaping that invoke wind interactions and binarity.",

keywords = "general, planetary nebulae",

author = "R. Montez and Kastner, {J. H.} and B. Balick and E. Behar and E. Blackman and V. Bujarrabal and Chu, {Y. H.} and Corradi, {R. L.M.} and {De Marco}, O. and A. Frank and M. Freeman and Frew, {D. J.} and Guerrero, {M. A.} and D. Jones and Lopez, {J. A.} and B. Miszalski and J. Nordhaus and Parker, {Q. A.} and R. Sahai and C. Sandin and D. Schonberner and N. Soker and Sokoloski, {J. L.} and M. Steffen and Toal{\'a}, {J. A.} and T. Ueta and E. Villaver and A. Zijlstra",

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T1 - The chandra planetary nebula survey (chanplaNS). III. X-ray emission from the central stars of planetary nebulae

AU - Montez, R.

AU - Kastner, J. H.

AU - Balick, B.

AU - Behar, E.

AU - Blackman, E.

AU - Bujarrabal, V.

AU - Chu, Y. H.

AU - Corradi, R. L.M.

AU - De Marco, O.

AU - Frank, A.

AU - Freeman, M.

AU - Frew, D. J.

AU - Guerrero, M. A.

AU - Jones, D.

AU - Lopez, J. A.

AU - Miszalski, B.

AU - Nordhaus, J.

AU - Parker, Q. A.

AU - Sahai, R.

AU - Sandin, C.

AU - Schonberner, D.

AU - Soker, N.

AU - Sokoloski, J. L.

AU - Steffen, M.

AU - Toalá, J. A.

AU - Ueta, T.

AU - Villaver, E.

AU - Zijlstra, A.

PY - 2015/2/10

Y1 - 2015/2/10

N2 - We present X-ray spectral analysis of 20 point-like X-ray sources detected in Chandra Planetary Nebula Survey observations of 59 planetary nebulae (PNe) in the solar neighborhood. Most of these 20 detections are associated with luminous central stars within relatively young, compact nebulae. The vast majority of these point-like X-ray-emitting sources at PN cores display relatively "hard" (≥0.5 keV) X-ray emission components that are unlikely to be due to photospheric emission from the hot central stars (CSPN). Instead, we demonstrate that these sources are well modeled by optically thin thermal plasmas. From the plasma properties, we identify two classes of CSPN X-ray emission: (1) high-temperature plasmas with X-ray luminosities, LX, that appear uncorrelated with the CSPN bolometric luminosity, L bol and (2) lower-temperature plasmas with L X/L bol 10-7. We suggest these two classes correspond to the physical processes of magnetically active binary companions and self-shocking stellar winds, respectively. In many cases this conclusion is supported by corroborative multiwavelength evidence for the wind and binary properties of the PN central stars. By thus honing in on the origins of X-ray emission from PN central stars, we enhance the ability of CSPN X-ray sources to constrain models of PN shaping that invoke wind interactions and binarity.

AB - We present X-ray spectral analysis of 20 point-like X-ray sources detected in Chandra Planetary Nebula Survey observations of 59 planetary nebulae (PNe) in the solar neighborhood. Most of these 20 detections are associated with luminous central stars within relatively young, compact nebulae. The vast majority of these point-like X-ray-emitting sources at PN cores display relatively "hard" (≥0.5 keV) X-ray emission components that are unlikely to be due to photospheric emission from the hot central stars (CSPN). Instead, we demonstrate that these sources are well modeled by optically thin thermal plasmas. From the plasma properties, we identify two classes of CSPN X-ray emission: (1) high-temperature plasmas with X-ray luminosities, LX, that appear uncorrelated with the CSPN bolometric luminosity, L bol and (2) lower-temperature plasmas with L X/L bol 10-7. We suggest these two classes correspond to the physical processes of magnetically active binary companions and self-shocking stellar winds, respectively. In many cases this conclusion is supported by corroborative multiwavelength evidence for the wind and binary properties of the PN central stars. By thus honing in on the origins of X-ray emission from PN central stars, we enhance the ability of CSPN X-ray sources to constrain models of PN shaping that invoke wind interactions and binarity.

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SN - 0004-637X

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JO - Astrophysical Journal

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ER -

The chandra planetary nebula survey (chanplaNS). III. X-ray emission from the central stars of planetary nebulae

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