V Sge: supersoft source or exotic hot binary? I. An x-shooter campaign in the high state
V Sge: supersoft source or exotic hot binary? I. An x-shooter campaign in the high state
V Sge is a peculiar, highly luminous long-period (12.34 h) binary star that can display a supersoft X-ray emitting component when in the faint phase of its V ≈ 10 − 13 mag variability range. Apparently undergoing Eddington-limited accretion from its more massive secondary, it is in a very rare, short-lived evolutionary phase towards the double degenerate channel. Its complex and highly variable optical emission features, from Balmer and He II to high-ionization lines, including strong fluorescence features, have been challenging to interpret, especially given the absence of any absorption lines associated with photospheric features from either stellar component. With the detailed properties of V Sge, especially the donor, still controversial, we undertook aVLT/X-Shooter campaign over 4 months in 2023, obtaining high Signal-to-noise ratio, high resolution spectra that revealed multiple components in both high- and low-ionization lines. This allows us to track V Sge’s principal emitting regions via Doppler tomography, obtaining new insights into high accretion-rate dynamics. In particular, we identify a stationary, double-peaked emission core which we interpret as a circumbinary ring, analogous to SS 433. This enables us to derive limits on the system masses. Furthermore, we find very broad emission-line wings whose mean velocity can vary over hundreds of kilometres per second on time-scales of decades, yet ‘flip’ between states in <1 week. We show that the supersoft X-ray source interpretation is able to account for these and other observational attributes significantly better than the hot binary model, concluding that V Sge could be one of the brightest known Galactic supersoft sources.
astro-ph.SR
Hakala, Pasi
bb43c802-ef31-4bb6-b702-1d93b507767c
Charles, Phil
0429b380-0754-4dc1-8def-885c7fa6a086
Rodríguez-Gil, Pablo
10e4b5c3-4a5d-4ff9-ae93-5bc34775dfda
7 October 2025
Hakala, Pasi
bb43c802-ef31-4bb6-b702-1d93b507767c
Charles, Phil
0429b380-0754-4dc1-8def-885c7fa6a086
Rodríguez-Gil, Pablo
10e4b5c3-4a5d-4ff9-ae93-5bc34775dfda
Hakala, Pasi, Charles, Phil and Rodríguez-Gil, Pablo
(2025)
V Sge: supersoft source or exotic hot binary? I. An x-shooter campaign in the high state.
Monthly Notices of the Royal Astronomical Society, 543 (3).
(doi:10.1093/mnras/staf1284).
Abstract
V Sge is a peculiar, highly luminous long-period (12.34 h) binary star that can display a supersoft X-ray emitting component when in the faint phase of its V ≈ 10 − 13 mag variability range. Apparently undergoing Eddington-limited accretion from its more massive secondary, it is in a very rare, short-lived evolutionary phase towards the double degenerate channel. Its complex and highly variable optical emission features, from Balmer and He II to high-ionization lines, including strong fluorescence features, have been challenging to interpret, especially given the absence of any absorption lines associated with photospheric features from either stellar component. With the detailed properties of V Sge, especially the donor, still controversial, we undertook aVLT/X-Shooter campaign over 4 months in 2023, obtaining high Signal-to-noise ratio, high resolution spectra that revealed multiple components in both high- and low-ionization lines. This allows us to track V Sge’s principal emitting regions via Doppler tomography, obtaining new insights into high accretion-rate dynamics. In particular, we identify a stationary, double-peaked emission core which we interpret as a circumbinary ring, analogous to SS 433. This enables us to derive limits on the system masses. Furthermore, we find very broad emission-line wings whose mean velocity can vary over hundreds of kilometres per second on time-scales of decades, yet ‘flip’ between states in <1 week. We show that the supersoft X-ray source interpretation is able to account for these and other observational attributes significantly better than the hot binary model, concluding that V Sge could be one of the brightest known Galactic supersoft sources.
Text
2507.22637v1
- Author's Original
Text
staf1284
- Version of Record
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Accepted/In Press date: 30 July 2025
e-pub ahead of print date: 13 August 2025
Published date: 7 October 2025
Keywords:
astro-ph.SR
Identifiers
Local EPrints ID: 506748
URI: http://eprints.soton.ac.uk/id/eprint/506748
ISSN: 1365-2966
PURE UUID: 2cef8a98-1de1-4557-abf4-442709e0241c
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Date deposited: 17 Nov 2025 17:58
Last modified: 17 Nov 2025 18:01
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Author:
Pasi Hakala
Author:
Pablo Rodríguez-Gil
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