Modelling the asymmetric wind of the luminous blue variable binary MWC 314

Modelling the asymmetric wind of the luminous blue variable binary MWC 314

Aims. We present a spectroscopic analysis of MWC 314, a luminous blue variable (LBV) candidate with an extended bipolar nebula. The detailed spectroscopic variability is investigated to determine if MWC 314 is a massive binary system with a supersonically accelerating wind or a low-mass B[e] star. W...

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Veröffentlicht in:Astronomy and astrophysics (Berlin) 2013-11, Vol.559, p.np-np
Hauptverfasser: Lobel, A., Groh, J. H., Martayan, C., Frémat, Y., Torres Dozinel, K., Raskin, G., Van Winckel, H., Prins, S., Pessemier, W., Waelkens, C., Hensberge, H., Dumortier, L., Jorissen, A., Van Eck, S., Lehmann, H.
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binaries: spectroscopic
Binary systems
Evolutionary
line: profiles
Mathematical models
outflows
Phases
Photometry
radiative transfer
Spectroscopy
Stars
stars: emission-line
stars: massive
stars: winds
Stellar winds
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container_end_page np
container_issue
container_start_page np
container_title Astronomy and astrophysics (Berlin)
container_volume 559
creator Lobel, A.
Groh, J. H.
Martayan, C.
Frémat, Y.
Torres Dozinel, K.
Raskin, G.
Van Winckel, H.
Prins, S.
Pessemier, W.
Waelkens, C.
Hensberge, H.
Dumortier, L.
Jorissen, A.
Van Eck, S.
Lehmann, H.
description Aims. We present a spectroscopic analysis of MWC 314, a luminous blue variable (LBV) candidate with an extended bipolar nebula. The detailed spectroscopic variability is investigated to determine if MWC 314 is a massive binary system with a supersonically accelerating wind or a low-mass B[e] star. We compare the spectrum and spectral energy distribution to other LBVs (such as P Cyg) and find very similar physical wind properties, indicating strong kinship. Methods. We combined long-term high-resolution optical spectroscopic monitoring and V-band photometric observations to determine the orbital elements and stellar parameters and to investigate the spectral variability with the orbital phases. We developed an advanced model of the large-scale wind-velocity and wind-density structure with 3-D radiative transfer calculations that fit the orbitally modulated P Cyg profile of He i λ5876, showing outflow velocities above 1000 km   s-1. Results. We find that MWC 314 is a massive semi-detached binary system of ≃1.22 AU, observed at an inclination angle of i = 72.8° with an orbital period of 60.8 d and e = 0.23. The primary star is a low-vsini LBV candidate of m1 = 39.6  M⊙ and R1 = 86.8  R⊙. The detailed radiative transfer fits show that the geometry of wind density is asymmetric around the primary star with increased wind density by a factor of 3.3, which leads the orbit of the primary. The variable orientation causes the orbital modulation that is observed in absorption portions of P Cyg wind lines. Wind accretion in the system produces a circumbinary disc. Conclusions. MWC 314 is in a crucial evolutionary phase of close binary systems, when the massive primary star has its H envelope being stripped and is losing mass to a circumbinary disc. MWC 314 is a key system for studying the evolutionary consequences of these effects.
doi_str_mv 10.1051/0004-6361/201220421
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H. ; Martayan, C. ; Frémat, Y. ; Torres Dozinel, K. ; Raskin, G. ; Van Winckel, H. ; Prins, S. ; Pessemier, W. ; Waelkens, C. ; Hensberge, H. ; Dumortier, L. ; Jorissen, A. ; Van Eck, S. ; Lehmann, H.</creator><creatorcontrib>Lobel, A. ; Groh, J. H. ; Martayan, C. ; Frémat, Y. ; Torres Dozinel, K. ; Raskin, G. ; Van Winckel, H. ; Prins, S. ; Pessemier, W. ; Waelkens, C. ; Hensberge, H. ; Dumortier, L. ; Jorissen, A. ; Van Eck, S. ; Lehmann, H.</creatorcontrib><description>Aims. We present a spectroscopic analysis of MWC 314, a luminous blue variable (LBV) candidate with an extended bipolar nebula. The detailed spectroscopic variability is investigated to determine if MWC 314 is a massive binary system with a supersonically accelerating wind or a low-mass B[e] star. We compare the spectrum and spectral energy distribution to other LBVs (such as P Cyg) and find very similar physical wind properties, indicating strong kinship. Methods. We combined long-term high-resolution optical spectroscopic monitoring and V-band photometric observations to determine the orbital elements and stellar parameters and to investigate the spectral variability with the orbital phases. We developed an advanced model of the large-scale wind-velocity and wind-density structure with 3-D radiative transfer calculations that fit the orbitally modulated P Cyg profile of He i λ5876, showing outflow velocities above 1000 km   s-1. Results. We find that MWC 314 is a massive semi-detached binary system of ≃1.22 AU, observed at an inclination angle of i = 72.8° with an orbital period of 60.8 d and e = 0.23. The primary star is a low-vsini LBV candidate of m1 = 39.6  M⊙ and R1 = 86.8  R⊙. The detailed radiative transfer fits show that the geometry of wind density is asymmetric around the primary star with increased wind density by a factor of 3.3, which leads the orbit of the primary. The variable orientation causes the orbital modulation that is observed in absorption portions of P Cyg wind lines. Wind accretion in the system produces a circumbinary disc. Conclusions. MWC 314 is in a crucial evolutionary phase of close binary systems, when the massive primary star has its H envelope being stripped and is losing mass to a circumbinary disc. 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H.</creatorcontrib><creatorcontrib>Martayan, C.</creatorcontrib><creatorcontrib>Frémat, Y.</creatorcontrib><creatorcontrib>Torres Dozinel, K.</creatorcontrib><creatorcontrib>Raskin, G.</creatorcontrib><creatorcontrib>Van Winckel, H.</creatorcontrib><creatorcontrib>Prins, S.</creatorcontrib><creatorcontrib>Pessemier, W.</creatorcontrib><creatorcontrib>Waelkens, C.</creatorcontrib><creatorcontrib>Hensberge, H.</creatorcontrib><creatorcontrib>Dumortier, L.</creatorcontrib><creatorcontrib>Jorissen, A.</creatorcontrib><creatorcontrib>Van Eck, S.</creatorcontrib><creatorcontrib>Lehmann, H.</creatorcontrib><title>Modelling the asymmetric wind of the luminous blue variable binary MWC 314</title><title>Astronomy and astrophysics (Berlin)</title><description>Aims. We present a spectroscopic analysis of MWC 314, a luminous blue variable (LBV) candidate with an extended bipolar nebula. The detailed spectroscopic variability is investigated to determine if MWC 314 is a massive binary system with a supersonically accelerating wind or a low-mass B[e] star. We compare the spectrum and spectral energy distribution to other LBVs (such as P Cyg) and find very similar physical wind properties, indicating strong kinship. Methods. We combined long-term high-resolution optical spectroscopic monitoring and V-band photometric observations to determine the orbital elements and stellar parameters and to investigate the spectral variability with the orbital phases. We developed an advanced model of the large-scale wind-velocity and wind-density structure with 3-D radiative transfer calculations that fit the orbitally modulated P Cyg profile of He i λ5876, showing outflow velocities above 1000 km   s-1. Results. We find that MWC 314 is a massive semi-detached binary system of ≃1.22 AU, observed at an inclination angle of i = 72.8° with an orbital period of 60.8 d and e = 0.23. The primary star is a low-vsini LBV candidate of m1 = 39.6  M⊙ and R1 = 86.8  R⊙. The detailed radiative transfer fits show that the geometry of wind density is asymmetric around the primary star with increased wind density by a factor of 3.3, which leads the orbit of the primary. The variable orientation causes the orbital modulation that is observed in absorption portions of P Cyg wind lines. Wind accretion in the system produces a circumbinary disc. Conclusions. MWC 314 is in a crucial evolutionary phase of close binary systems, when the massive primary star has its H envelope being stripped and is losing mass to a circumbinary disc. MWC 314 is a key system for studying the evolutionary consequences of these effects.</description><subject>binaries: spectroscopic</subject><subject>Binary systems</subject><subject>Evolutionary</subject><subject>line: profiles</subject><subject>Mathematical models</subject><subject>outflows</subject><subject>Phases</subject><subject>Photometry</subject><subject>radiative transfer</subject><subject>Spectroscopy</subject><subject>Stars</subject><subject>stars: emission-line</subject><subject>stars: massive</subject><subject>stars: winds</subject><subject>Stellar winds</subject><issn>0004-6361</issn><issn>1432-0746</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><recordid>eNqFkMtOwzAQRS0EEqXwBWy8ZBPqsR3bWaKKp9oiJFDZWXbqgCGPEidA_x6Hom5ZjWZ078ydg9ApkHMgKUwIITwRTMCEEqCUcAp7aASc0YRILvbRaKc4REchvMWWgmIjdDdvVq4sff2Cu1eHTdhUletan-MvX69wU_yOy77yddMHbMve4U_TemNLh62vTbvB8-UUM-DH6KAwZXAnf3WMnq4uH6c3yez--nZ6MUtylqkuhrBFvC0FIakqKLFGWEmdkkRmSoBUhbMityvDOQFrlTIm4zG4lKDyzAIbo7Pt3nXbfPQudLryIY9PmNrFjBqElJmkSmb_S1MReSkQg5RtpXnbhNC6Qq9bX8X3NBA9QNYDQj0g1DvI0ZVsXT507ntnMe27FpLJVCuy1M8L-bCYsUU0_wBTEXtZ</recordid><startdate>20131101</startdate><enddate>20131101</enddate><creator>Lobel, A.</creator><creator>Groh, J. 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H.</au><au>Martayan, C.</au><au>Frémat, Y.</au><au>Torres Dozinel, K.</au><au>Raskin, G.</au><au>Van Winckel, H.</au><au>Prins, S.</au><au>Pessemier, W.</au><au>Waelkens, C.</au><au>Hensberge, H.</au><au>Dumortier, L.</au><au>Jorissen, A.</au><au>Van Eck, S.</au><au>Lehmann, H.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Modelling the asymmetric wind of the luminous blue variable binary MWC 314</atitle><jtitle>Astronomy and astrophysics (Berlin)</jtitle><date>2013-11-01</date><risdate>2013</risdate><volume>559</volume><spage>np</spage><epage>np</epage><pages>np-np</pages><issn>0004-6361</issn><eissn>1432-0746</eissn><abstract>Aims. We present a spectroscopic analysis of MWC 314, a luminous blue variable (LBV) candidate with an extended bipolar nebula. The detailed spectroscopic variability is investigated to determine if MWC 314 is a massive binary system with a supersonically accelerating wind or a low-mass B[e] star. We compare the spectrum and spectral energy distribution to other LBVs (such as P Cyg) and find very similar physical wind properties, indicating strong kinship. Methods. We combined long-term high-resolution optical spectroscopic monitoring and V-band photometric observations to determine the orbital elements and stellar parameters and to investigate the spectral variability with the orbital phases. We developed an advanced model of the large-scale wind-velocity and wind-density structure with 3-D radiative transfer calculations that fit the orbitally modulated P Cyg profile of He i λ5876, showing outflow velocities above 1000 km   s-1. Results. We find that MWC 314 is a massive semi-detached binary system of ≃1.22 AU, observed at an inclination angle of i = 72.8° with an orbital period of 60.8 d and e = 0.23. The primary star is a low-vsini LBV candidate of m1 = 39.6  M⊙ and R1 = 86.8  R⊙. The detailed radiative transfer fits show that the geometry of wind density is asymmetric around the primary star with increased wind density by a factor of 3.3, which leads the orbit of the primary. The variable orientation causes the orbital modulation that is observed in absorption portions of P Cyg wind lines. Wind accretion in the system produces a circumbinary disc. Conclusions. MWC 314 is in a crucial evolutionary phase of close binary systems, when the massive primary star has its H envelope being stripped and is losing mass to a circumbinary disc. MWC 314 is a key system for studying the evolutionary consequences of these effects.</abstract><pub>EDP Sciences</pub><doi>10.1051/0004-6361/201220421</doi><oa>free_for_read</oa></addata></record>
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subjects binaries: spectroscopic
Binary systems
Evolutionary
line: profiles
Mathematical models
outflows
Phases
Photometry
radiative transfer
Spectroscopy
Stars
stars: emission-line
stars: massive
stars: winds
Stellar winds
title Modelling the asymmetric wind of the luminous blue variable binary MWC 314
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