Torque reversal and orbital profile of X-ray pulsar OAO 1657-415

OAO 1657-415 is an atypical supergiant X-ray binary among wind-fed and disk-fed systems, showing alternate spin-up/spin-down intervals lasting on the order of tens of days. We study different torque states of OAO 1657-415 based on the spin history monitored by {\it Fermi}/GBM, together with fluxes f...

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Veröffentlicht in:	arXiv.org 2021-12
Hauptverfasser:	Liao, Zhenxuan, Liu, Jiren, Jenke, Peter A, Gou, Lijun
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Sprache:	eng
Schlagworte:	Accretion disks Correlation Fluxes Neutron stars Phases Physics - High Energy Astrophysical Phenomena Pulsars Torque X ray binaries X ray stars X-ray astronomy
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description	OAO 1657-415 is an atypical supergiant X-ray binary among wind-fed and disk-fed systems, showing alternate spin-up/spin-down intervals lasting on the order of tens of days. We study different torque states of OAO 1657-415 based on the spin history monitored by {\it Fermi}/GBM, together with fluxes from {\it Swift}/BAT and {\it MAXI}/GSC. Its spin frequency derivatives are well correlated with {\it Swift}/BAT fluxes during rapid spin-up episodes, anti-correlated with {\it Swift}/BAT fluxes during rapid spin-down episodes, and not correlated in between. The orbital profile of spin-down episodes is reduced by a factor of 2 around orbital phases of 0.2 and 0.8 compared to that of spin-up episodes. The orbital hardness ratio profile of spin-down episodes is also lower than that of spin-up episodes around phases close to the mid-eclipse, implying that there is more material between the neutron star and the observer for spin-down episodes than for spin-up episodes around these phases. These results indicate that the torque state of the neutron star is connected with the material flow on orbital scale and support the retrograde/prograde disk accretion scenario for spin-down/spin-up torque reversal.
doi_str_mv	10.48550/arxiv.2112.01993
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We study different torque states of OAO 1657-415 based on the spin history monitored by {\it Fermi}/GBM, together with fluxes from {\it Swift}/BAT and {\it MAXI}/GSC. Its spin frequency derivatives are well correlated with {\it Swift}/BAT fluxes during rapid spin-up episodes, anti-correlated with {\it Swift}/BAT fluxes during rapid spin-down episodes, and not correlated in between. The orbital profile of spin-down episodes is reduced by a factor of 2 around orbital phases of 0.2 and 0.8 compared to that of spin-up episodes. The orbital hardness ratio profile of spin-down episodes is also lower than that of spin-up episodes around phases close to the mid-eclipse, implying that there is more material between the neutron star and the observer for spin-down episodes than for spin-up episodes around these phases. 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We study different torque states of OAO 1657-415 based on the spin history monitored by {\it Fermi}/GBM, together with fluxes from {\it Swift}/BAT and {\it MAXI}/GSC. Its spin frequency derivatives are well correlated with {\it Swift}/BAT fluxes during rapid spin-up episodes, anti-correlated with {\it Swift}/BAT fluxes during rapid spin-down episodes, and not correlated in between. The orbital profile of spin-down episodes is reduced by a factor of 2 around orbital phases of 0.2 and 0.8 compared to that of spin-up episodes. The orbital hardness ratio profile of spin-down episodes is also lower than that of spin-up episodes around phases close to the mid-eclipse, implying that there is more material between the neutron star and the observer for spin-down episodes than for spin-up episodes around these phases. 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subjects	Accretion disks Correlation Fluxes Neutron stars Phases Physics - High Energy Astrophysical Phenomena Pulsars Torque X ray binaries X ray stars X-ray astronomy
title	Torque reversal and orbital profile of X-ray pulsar OAO 1657-415
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