Evolution of the inner accretion flow and the white-dwarf spin pulse during the 2023 outburst in GK Persei
Evolution of the inner accretion flow and the white-dwarf spin pulse during the 2023 outburst in GK Persei
We present our X-ray and optical observations performed by NICER, NuSTAR, and Tomo-e Gozen during the2023 outburst in the intermediate polar GK Persei. The X-ray spectrum consisted of three components: blackbody(BB) emission of several tens of eVs from the irradiated white dwarf (WD) surface, a source possibly including several emission lines around 1 keV, and multitemperature bremsstrahlung emission from the accretion column. The 351.3 s WD spin pulse was detected in X-rays, and the observable X-ray @ux from the column drastically decreased at the off-pulse phase, which suggests that the absorption of the column by the accreting gas, called the curtain, was the major cause of the pulse. As the system became brighter in the optical, the column became fainter, the pulse amplitude became higher, and the energy dependence of pulses became weaker at <8 keV. These phenomena could be explained by the column’s more pronounced absorption by the denser curtain as mass accretion rates increased. The BB and line @uxes rapidly decreased at the optical decline, which suggests the expansion of the innermost disk edge with decreasing accretion rates. The electron scattering or the column geometry may be associated with the almost no energy dependence of high-energy pulses. The irradiated vertically thick structure at the disk may generate optical quasi-periodic oscillations with a period of ∼5700 s.
astro-ph.HE
Kimura, Mariko
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Hayashi, Takayuki
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Wada, Yuuki
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Iwakiri, Wataru
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Sako, Shigeyuki
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Veresvarska, Martina
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Scaringi, Simone
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Castro-Segura, Noel
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Knigge, Christian
ac320eec-631a-426e-b2db-717c8bf7857e
Gendreau, Keith C.
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Arzoumanian, Zaven
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29 May 2025
Kimura, Mariko
f3423a64-35e5-4484-a0e3-6ece59a34677
Hayashi, Takayuki
72f540cf-99bc-4b55-804b-57afd45f6bea
Wada, Yuuki
10b003cb-4a5e-4132-ae36-d7153973e6e1
Iwakiri, Wataru
f775fbdf-db7e-4f07-afdf-67067173a1c5
Sako, Shigeyuki
94f4d8e4-35d7-49fd-a850-a1fd15fe8b3e
Veresvarska, Martina
f70533e3-9479-45a2-86fb-618d88c6c673
Scaringi, Simone
55163f5e-348a-4f5e-8f4b-22a6cca44f64
Castro-Segura, Noel
dc4af6e3-8d54-4b82-b2a1-b5cbdd48a8b0
Knigge, Christian
ac320eec-631a-426e-b2db-717c8bf7857e
Gendreau, Keith C.
289c5283-377f-476a-aec3-5532dfff6f2b
Arzoumanian, Zaven
e5424f47-f972-4ab0-9a90-304b6175da38
Kimura, Mariko, Hayashi, Takayuki, Wada, Yuuki, Iwakiri, Wataru, Sako, Shigeyuki, Veresvarska, Martina, Scaringi, Simone, Castro-Segura, Noel, Knigge, Christian, Gendreau, Keith C. and Arzoumanian, Zaven
(2025)
Evolution of the inner accretion flow and the white-dwarf spin pulse during the 2023 outburst in GK Persei.
The Astronomical Journal, 985 (2), [240].
(doi:10.3847/1538-4357/adcf27).
Abstract
We present our X-ray and optical observations performed by NICER, NuSTAR, and Tomo-e Gozen during the2023 outburst in the intermediate polar GK Persei. The X-ray spectrum consisted of three components: blackbody(BB) emission of several tens of eVs from the irradiated white dwarf (WD) surface, a source possibly including several emission lines around 1 keV, and multitemperature bremsstrahlung emission from the accretion column. The 351.3 s WD spin pulse was detected in X-rays, and the observable X-ray @ux from the column drastically decreased at the off-pulse phase, which suggests that the absorption of the column by the accreting gas, called the curtain, was the major cause of the pulse. As the system became brighter in the optical, the column became fainter, the pulse amplitude became higher, and the energy dependence of pulses became weaker at <8 keV. These phenomena could be explained by the column’s more pronounced absorption by the denser curtain as mass accretion rates increased. The BB and line @uxes rapidly decreased at the optical decline, which suggests the expansion of the innermost disk edge with decreasing accretion rates. The electron scattering or the column geometry may be associated with the almost no energy dependence of high-energy pulses. The irradiated vertically thick structure at the disk may generate optical quasi-periodic oscillations with a period of ∼5700 s.
Text
2504.21313v1
- Author's Original
Text
Kimura_2025_ApJ_985_240
- Version of Record
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Accepted/In Press date: 20 April 2025
Published date: 29 May 2025
Keywords:
astro-ph.HE
Identifiers
Local EPrints ID: 504020
URI: http://eprints.soton.ac.uk/id/eprint/504020
ISSN: 1538-3881
PURE UUID: 06ab571e-fe68-4c2f-a594-81367adfd9dd
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Date deposited: 21 Aug 2025 15:44
Last modified: 17 Oct 2025 16:55
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Contributors
Author:
Mariko Kimura
Author:
Takayuki Hayashi
Author:
Yuuki Wada
Author:
Wataru Iwakiri
Author:
Shigeyuki Sako
Author:
Martina Veresvarska
Author:
Simone Scaringi
Author:
Noel Castro-Segura
Author:
Keith C. Gendreau
Author:
Zaven Arzoumanian
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