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[HP99] 159 -- properties of the first supersoft X-ray source with a helium star donor

[HP99] 159 -- properties of the first supersoft X-ray source with a helium star donor
[HP99] 159 -- properties of the first supersoft X-ray source with a helium star donor

[HP99] 159 is remarkable as the first supersoft X-ray source (SSS) identified with an evolved helium star donor. With a likely orbital period of 1.164 d or 2.327 d, the origin of the SSS component is controversial, with the two current models being either steady He-burning on the white dwarf surface, or that it is a helium nova in the decaying phase. To help resolve this issue we present extensive new long-term spectroscopy (with SALT) and photometry (at SAAO and with OGLE) of [HP99] 159 which (a) supports 2.327 d as the orbital period, and (b) finds only a small He ii radial velocity modulation. The latter is surprising as it implies a very low inclination system, whereas our light curve modelling suggests i∼50 , and hence that the He ii must be produced in outflowing material further above, or beyond, the disc. We find that the decaying nova model cannot fit our OGLE light-curve and the observed SSS flux level. [HP99] 159 has been essentially constant as an SSS over several decades, implying a sustained high level of mass-transfer from its He star donor, making it the only confirmed single-degenerate scenario SN Ia progenitor. We have updated the known SSS binary parameters and find a clear ∼1.5 mag difference in their M V when compared to the M V–∑ properties of LMXBs, likely due to the larger irradiated areas and more luminous donors.

astro-ph.HE, astro-ph.SR, X-rays: individual([HP99]159), white dwarfs, binaries: close, supernovae: general
0035-8711
Szegedi, Hélène
47ce90ff-25c0-4c87-bf24-f5b5d1bc15c2
Charles, Philip A.
0429b380-0754-4dc1-8def-885c7fa6a086
Buckley, David A.H.
35279f22-62d6-4626-b262-df2754ca734b
Meintjes, Pieter J.
49725ff5-64ee-412a-a859-6dac05fcaf70
Mróz, Przemek
28695833-80e9-4a6c-9396-50b550fcfba2
Udalski, Andrzej
d6d4956e-6852-4146-aaa7-2ef17bd1944c
Szegedi, Hélène
47ce90ff-25c0-4c87-bf24-f5b5d1bc15c2
Charles, Philip A.
0429b380-0754-4dc1-8def-885c7fa6a086
Buckley, David A.H.
35279f22-62d6-4626-b262-df2754ca734b
Meintjes, Pieter J.
49725ff5-64ee-412a-a859-6dac05fcaf70
Mróz, Przemek
28695833-80e9-4a6c-9396-50b550fcfba2
Udalski, Andrzej
d6d4956e-6852-4146-aaa7-2ef17bd1944c

Szegedi, Hélène, Charles, Philip A., Buckley, David A.H., Meintjes, Pieter J., Mróz, Przemek and Udalski, Andrzej (2026) [HP99] 159 -- properties of the first supersoft X-ray source with a helium star donor. Mon Not R Astron Soc, 546 (3), [stag189]. (doi:10.1093/mnras/stag189).

Record type: Article

Abstract

[HP99] 159 is remarkable as the first supersoft X-ray source (SSS) identified with an evolved helium star donor. With a likely orbital period of 1.164 d or 2.327 d, the origin of the SSS component is controversial, with the two current models being either steady He-burning on the white dwarf surface, or that it is a helium nova in the decaying phase. To help resolve this issue we present extensive new long-term spectroscopy (with SALT) and photometry (at SAAO and with OGLE) of [HP99] 159 which (a) supports 2.327 d as the orbital period, and (b) finds only a small He ii radial velocity modulation. The latter is surprising as it implies a very low inclination system, whereas our light curve modelling suggests i∼50 , and hence that the He ii must be produced in outflowing material further above, or beyond, the disc. We find that the decaying nova model cannot fit our OGLE light-curve and the observed SSS flux level. [HP99] 159 has been essentially constant as an SSS over several decades, implying a sustained high level of mass-transfer from its He star donor, making it the only confirmed single-degenerate scenario SN Ia progenitor. We have updated the known SSS binary parameters and find a clear ∼1.5 mag difference in their M V when compared to the M V–∑ properties of LMXBs, likely due to the larger irradiated areas and more luminous donors.

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stag189 - Version of Record
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Accepted/In Press date: 23 January 2026
e-pub ahead of print date: 27 January 2026
Published date: 11 February 2026
Keywords: astro-ph.HE, astro-ph.SR, X-rays: individual([HP99]159), white dwarfs, binaries: close, supernovae: general
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Identifiers

Local EPrints ID: 511773
URI: http://eprints.soton.ac.uk/id/eprint/511773
DOI: doi:10.1093/mnras/stag189
ISSN: 0035-8711
PURE UUID: e8b9554f-e46e-447f-ad3d-c73e9850c8ec

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Date deposited: 02 Jun 2026 16:33
Last modified: 02 Jun 2026 16:34

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Contributors

Author: Hélène Szegedi
Author: Philip A. Charles
Author: David A.H. Buckley
Author: Pieter J. Meintjes
Author: Przemek Mróz
Author: Andrzej Udalski

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