Detection of a type-C QPO during the soft-to-hard transition in Swift J1727.8-1613
Detection of a type-C QPO during the soft-to-hard transition in Swift J1727.8-1613
Context: timing analysis of accreting systems is key to probing the structure and dynamics around compact objects. In black-hole low-mass X-ray binaries (BH LMXBs), the compact object accretes matter from a low-mass companion star via Roche-Lobe overflow and forms an accretion disk that occasionally exhibits bright eruptions. The BH LMXB Swift J1727.8−1613 (hereafter J1727) underwent one of the brightest outbursts ever recorded in X-rays in August 2023.
Aims: we study the timing properties of J1727 in the decaying phase of its outburst based on XMM–Newton data with a high-time resolution.
Methods: we analyzed the power spectrum (PS) and cross spectrum (CS) of J1727, which we modeled with Lorentzians. The PS reveals the power distribution of the source across frequencies, and the real and imaginary parts of the CS compare the displacement of the light curves in different energy bands for the different observations. Finally, we simultaneously derived the phase lags and the coherence using a constant phase-lag model.
Results: while the first (soft-state) observation shows no strong variability, the two harder observations exhibit quasi-periodic oscillations (QPOs). Because the QPO is more significantly detected in the imaginary part of the CS than in the PS, we refer to it as the “imaginary QPO”. The QPO is more prominent in the soft 0.3−2 keV band than in the hard 2−12 keV band. As the source evolves toward the hard state, the imaginary QPO shifts to lower frequencies, the broadband fractional rms amplitude in the 0.3−2 keV energy band increases, and the rms covariance of the imaginary QPO decreases. Simultaneously, the phase lags increase, and the coherence function drops at the imaginary QPO frequency.
Conclusions: this analysis provides the first type-C QPO detection in a BH XB during the soft–to–hard transition using XMM–Newton data. The QPO is detected at particularly low energy (0.3−2 keV). Notably, the QPO is significantly detected in the imaginary part of the CS and the PS. Thus, we confirm the physical origin of the coherence drop and the phase-lag excess, which were only observed with NICER before.
astro-ph.HE, stars: black holes, X-rays: binaries, X-rays: individuals: Swift J1727.8-1613
Brigitte, Maïmouna
cdcfe09c-e406-4caf-944b-3b51b928f854
Segura, Noel Castro
2b220177-02a8-456f-8358-53aad81113fb
García, Federico
7c0fed66-dda4-4333-b38c-175f570820ce
Svoboda, Jiří
78aa5f72-4c36-4ed1-ba54-5573fb2b826b
Trigo, María Díaz
973dce16-ff73-4885-84a6-5100835ae5a6
Méndez, Mariano
ddc88856-e506-4794-b63f-28fa1579e8e0
Vincentelli, Federico
e803d624-5902-4d4e-9e65-5615fe76fa70
Buisson, Douglas J.K.
27532c53-da31-4bbf-8bcf-227c7d5f6ea7
Altamirano, Diego
d5ccdb09-0b71-4303-9538-05b467be075b
19 November 2025
Brigitte, Maïmouna
cdcfe09c-e406-4caf-944b-3b51b928f854
Segura, Noel Castro
2b220177-02a8-456f-8358-53aad81113fb
García, Federico
7c0fed66-dda4-4333-b38c-175f570820ce
Svoboda, Jiří
78aa5f72-4c36-4ed1-ba54-5573fb2b826b
Trigo, María Díaz
973dce16-ff73-4885-84a6-5100835ae5a6
Méndez, Mariano
ddc88856-e506-4794-b63f-28fa1579e8e0
Vincentelli, Federico
e803d624-5902-4d4e-9e65-5615fe76fa70
Buisson, Douglas J.K.
27532c53-da31-4bbf-8bcf-227c7d5f6ea7
Altamirano, Diego
d5ccdb09-0b71-4303-9538-05b467be075b
Brigitte, Maïmouna, Segura, Noel Castro, García, Federico, Svoboda, Jiří, Trigo, María Díaz, Méndez, Mariano, Vincentelli, Federico, Buisson, Douglas J.K. and Altamirano, Diego
(2025)
Detection of a type-C QPO during the soft-to-hard transition in Swift J1727.8-1613.
A&A, 703, [A257].
(doi:10.1051/0004-6361/202555486).
Abstract
Context: timing analysis of accreting systems is key to probing the structure and dynamics around compact objects. In black-hole low-mass X-ray binaries (BH LMXBs), the compact object accretes matter from a low-mass companion star via Roche-Lobe overflow and forms an accretion disk that occasionally exhibits bright eruptions. The BH LMXB Swift J1727.8−1613 (hereafter J1727) underwent one of the brightest outbursts ever recorded in X-rays in August 2023.
Aims: we study the timing properties of J1727 in the decaying phase of its outburst based on XMM–Newton data with a high-time resolution.
Methods: we analyzed the power spectrum (PS) and cross spectrum (CS) of J1727, which we modeled with Lorentzians. The PS reveals the power distribution of the source across frequencies, and the real and imaginary parts of the CS compare the displacement of the light curves in different energy bands for the different observations. Finally, we simultaneously derived the phase lags and the coherence using a constant phase-lag model.
Results: while the first (soft-state) observation shows no strong variability, the two harder observations exhibit quasi-periodic oscillations (QPOs). Because the QPO is more significantly detected in the imaginary part of the CS than in the PS, we refer to it as the “imaginary QPO”. The QPO is more prominent in the soft 0.3−2 keV band than in the hard 2−12 keV band. As the source evolves toward the hard state, the imaginary QPO shifts to lower frequencies, the broadband fractional rms amplitude in the 0.3−2 keV energy band increases, and the rms covariance of the imaginary QPO decreases. Simultaneously, the phase lags increase, and the coherence function drops at the imaginary QPO frequency.
Conclusions: this analysis provides the first type-C QPO detection in a BH XB during the soft–to–hard transition using XMM–Newton data. The QPO is detected at particularly low energy (0.3−2 keV). Notably, the QPO is significantly detected in the imaginary part of the CS and the PS. Thus, we confirm the physical origin of the coherence drop and the phase-lag excess, which were only observed with NICER before.
Text
2505.07938v2
- Author's Original
Text
aa55486-25
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Accepted/In Press date: 12 September 2025
e-pub ahead of print date: 19 November 2025
Published date: 19 November 2025
Keywords:
astro-ph.HE, stars: black holes, X-rays: binaries, X-rays: individuals: Swift J1727.8-1613
Identifiers
Local EPrints ID: 508564
URI: http://eprints.soton.ac.uk/id/eprint/508564
ISSN: 0004-6361
PURE UUID: f5a1c40e-649e-4adc-bbab-47016d6b9a84
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Date deposited: 27 Jan 2026 17:44
Last modified: 28 Jan 2026 03:33
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Contributors
Author:
Maïmouna Brigitte
Author:
Noel Castro Segura
Author:
Federico García
Author:
Jiří Svoboda
Author:
María Díaz Trigo
Author:
Mariano Méndez
Author:
Federico Vincentelli
Author:
Douglas J.K. Buisson
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