ULX Collimation by Outflows in Moderately Magnetized Neutron
Stars

J 2025

ULX Collimation by Outflows in Moderately Magnetized Neutron Stars

KAYANIKHOO, Fatemeh; Wlodek KLUZNIAK and Miljenko ČEMELJIĆ

Basic information

Original name

ULX Collimation by Outflows in Moderately Magnetized Neutron Stars

Authors

KAYANIKHOO, Fatemeh; Wlodek KLUZNIAK and Miljenko ČEMELJIĆ

Edition

Astrophysical Journal, GB - Spojené království Velké Británie a, 2025, 0004-637X

Other information

Language

English

Type of outcome

Article in a journal

Field of Study

10308 Astronomy

Country of publisher

United Kingdom of Great Britain and Northern Ireland

Confidentiality degree

is not subject to a state or trade secret

References:

URL

Impact factor

Impact factor: 5.400 in 2024

Organization unit

Institute of physics in Opava

DOI

https://doi.org/10.3847/1538-4357/adb714

UT WoS

001467971400001

EID Scopus

2-s2.0-105000632789

Keywords in English

X-rays pulsar; pulsing ULXs; black holes;accreation;simulations;luminosity;emission

Links

GX21-06825X, research and development project.

Changed: 22/1/2026 10:17, Mgr. Pavlína Jalůvková

Abstract

In the original language

We perform radiative magnetohydrodynamics simulations in general relativity of super-Eddington disk accretion onto neutron stars endowed with a magnetic dipole corresponding to surface strengths not exceeding 100 Giga-Gauss. Accretion is found to power strong outflows that collimate the emergent radiation of the accretion columns, leading to apparent radiative luminosities of similar to 100 Eddington, when the true luminosity is a few Eddington units. Surprisingly, the collimation cone/angle widens with increasing magnetic field. Thus, in our simulations the apparent luminosity of the neutron star is substantially larger for the weaker magnetic fields (1010 G) than for the stronger ones (1011 G). We conclude that a super-Eddington accreting neutron star with dipole magnetic field on the order of 1010 G is the most likely source of ultraluminous X-rays.

Cite

KAYANIKHOO, Fatemeh; Wlodek KLUZNIAK and Miljenko ČEMELJIĆ. ULX Collimation by Outflows in Moderately Magnetized Neutron Stars. Astrophysical Journal. GB - Spojené království Velké Británie a, 2025, vol. 982, No 2, p. "95-1"-"95-8", 8 pp. ISSN 0004-637X. Available from: https://doi.org/10.3847/1538-4357/adb714.

@article{90329,
   author = {Kayanikhoo, Fatemeh and Kluzniak, Wlodek and Čemeljić, Miljenko},
   article_location = {GB - Spojené království Velké Británie a},
   article_number = {2},
   doi = {https://doi.org/10.3847/1538-4357/adb714},
   keywords = {X-rays pulsar; pulsing ULXs; black holes;accreation;simulations;luminosity;emission},
   language = {eng},
   issn = {0004-637X},
   journal = {Astrophysical Journal},
   title = {ULX Collimation by Outflows in Moderately Magnetized Neutron Stars},
   url = {https://iopscience.iop.org/article/10.3847/1538-4357/adb714},
   volume = {982},
   year = {2025}
}

TY  - JOUR
ID  - 90329
AU  - Kayanikhoo, Fatemeh - Kluzniak, Wlodek - Čemeljić, Miljenko
PY  - 2025
TI  - ULX Collimation by Outflows in Moderately Magnetized Neutron Stars
JF  - Astrophysical Journal
VL  - 982
IS  - 2
SP  - "95-1"-"95-8"
EP  - "95-1"-"95-8"
SN  - 0004637X
KW  - X-rays pulsar
KW  - pulsing ULXs
KW  - black holes;accreation;simulations;luminosity;emission
UR  - https://iopscience.iop.org/article/10.3847/1538-4357/adb714
N2  - We perform radiative magnetohydrodynamics simulations in general relativity of super-Eddington disk accretion onto neutron stars endowed with a magnetic dipole corresponding to surface strengths not exceeding 100 Giga-Gauss. Accretion is found to power strong outflows that collimate the emergent radiation of the accretion columns, leading to apparent radiative luminosities of similar to 100 Eddington, when the true luminosity is a few Eddington units. Surprisingly, the collimation cone/angle widens with increasing magnetic field. Thus, in our simulations the apparent luminosity of the neutron star is substantially larger for the weaker magnetic fields (1010 G) than for the stronger ones (1011 G). We conclude that a super-Eddington accreting neutron star with dipole magnetic field on the order of 1010 G is the most likely source of ultraluminous X-rays.
ER  -

KAYANIKHOO, Fatemeh; Wlodek KLUZNIAK and Miljenko ČEMELJI$\backslash$'C. ULX Collimation by Outflows in Moderately Magnetized Neutron Stars. \textit{Astrophysical Journal}. GB - Spojené království Velké Británie a, 2025, vol.~982, No~2, p.~''95-1''-''95-8'', 8 pp. ISSN~0004-637X. Available from: https://doi.org/10.3847/1538-4357/adb714.

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