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Hauptverfasser: Shultz, M. E., Berry, I., Bohlender, D., Catanzaro, G., Giarrusso, M., Klement, R., Labadie-Bartz, J., Leone, F., Leto, P., Neiner, C., Owocki, S. P., Rivinius, Th., ud-Doula, A., Wade, G. A.
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2505.08007
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author Shultz, M. E.
Berry, I.
Bohlender, D.
Catanzaro, G.
Giarrusso, M.
Klement, R.
Labadie-Bartz, J.
Leone, F.
Leto, P.
Neiner, C.
Owocki, S. P.
Rivinius, Th.
ud-Doula, A.
Wade, G. A.
author_facet Shultz, M. E.
Berry, I.
Bohlender, D.
Catanzaro, G.
Giarrusso, M.
Klement, R.
Labadie-Bartz, J.
Leone, F.
Leto, P.
Neiner, C.
Owocki, S. P.
Rivinius, Th.
ud-Doula, A.
Wade, G. A.
contents The nearby B-type star $ρ$ Oph A was recently identified as a rapidly rotating magnetic B-type star with variable radio and X-ray emission consistent with a magnetospheric origin. We present a high-resolution spectropolarimetric time series obtained with ESPaDOnS, which we use to perform a magnetic analysis using least-squares deconvolution (LSD). We find that $ρ$ Oph A is a spectroscopic binary consisting of two B-type stars with masses of about 8 and 10 $M_\odot$ on a slightly eccentric 88-day orbit, with the magnetic field being associated with the smaller Ab component. This leads to $ρ$ Oph Ab's 4 kG surface magnetic dipole being approximately twice as strong as the previously reported 2 kG. The oblique rotator model derived from the longitudinal magnetic field curve agrees well with the LSD Stokes $V$ profiles, indicating that the magnetic field is likely to be very nearly dipolar. The orbital and rotational axes appear to be aligned. We report for the first time $ρ$ Oph Ab's magnetospheric H$α$ emission, which is consistent with an origin in a centrifugal magnetosphere. We also demonstrate that $ρ$ Oph Ab's light curve can be recovered from the previously reported {\em Kepler-2} light curve of $ρ$ Oph C, and that it demonstrates prominent magnetospheric eclipses similar to those of $σ$ Ori E, and which can be reproduced using a dipolar Rigidly Rotating Magnetosphere model. Both H$α$ and the light curve are indicative of a strongly asymmetric magnetosphere. All indications are that $ρ$ Oph Ab's magnetic field is essentially dipolar, meaning that contributions from higher-order multipoles probably cannot explain the strong asymmetry in the magnetosphere. Only two other stars show comparable degrees of asymmetry, both of which are also close binaries, suggesting that binarity can affect the magnetospheric plasma distributions.
format Preprint
id arxiv_https___arxiv_org_abs_2505_08007
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Discovery of the binary nature of the magnetospheric B-type star $ρ$ Oph A
Shultz, M. E.
Berry, I.
Bohlender, D.
Catanzaro, G.
Giarrusso, M.
Klement, R.
Labadie-Bartz, J.
Leone, F.
Leto, P.
Neiner, C.
Owocki, S. P.
Rivinius, Th.
ud-Doula, A.
Wade, G. A.
Solar and Stellar Astrophysics
The nearby B-type star $ρ$ Oph A was recently identified as a rapidly rotating magnetic B-type star with variable radio and X-ray emission consistent with a magnetospheric origin. We present a high-resolution spectropolarimetric time series obtained with ESPaDOnS, which we use to perform a magnetic analysis using least-squares deconvolution (LSD). We find that $ρ$ Oph A is a spectroscopic binary consisting of two B-type stars with masses of about 8 and 10 $M_\odot$ on a slightly eccentric 88-day orbit, with the magnetic field being associated with the smaller Ab component. This leads to $ρ$ Oph Ab's 4 kG surface magnetic dipole being approximately twice as strong as the previously reported 2 kG. The oblique rotator model derived from the longitudinal magnetic field curve agrees well with the LSD Stokes $V$ profiles, indicating that the magnetic field is likely to be very nearly dipolar. The orbital and rotational axes appear to be aligned. We report for the first time $ρ$ Oph Ab's magnetospheric H$α$ emission, which is consistent with an origin in a centrifugal magnetosphere. We also demonstrate that $ρ$ Oph Ab's light curve can be recovered from the previously reported {\em Kepler-2} light curve of $ρ$ Oph C, and that it demonstrates prominent magnetospheric eclipses similar to those of $σ$ Ori E, and which can be reproduced using a dipolar Rigidly Rotating Magnetosphere model. Both H$α$ and the light curve are indicative of a strongly asymmetric magnetosphere. All indications are that $ρ$ Oph Ab's magnetic field is essentially dipolar, meaning that contributions from higher-order multipoles probably cannot explain the strong asymmetry in the magnetosphere. Only two other stars show comparable degrees of asymmetry, both of which are also close binaries, suggesting that binarity can affect the magnetospheric plasma distributions.
title Discovery of the binary nature of the magnetospheric B-type star $ρ$ Oph A
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2505.08007