Email this article 
Induced Magnetic Field in Accretion Disks around Neutron Stars
- Authors: Kuzin A.V.1
-
Affiliations:
- Sternberg Astronomical Institute, Moscow State University, Moscow, 119234 Russia
- Issue: Vol 49, No 10 (2023)
- Pages: 669-676
- Section: Articles
- URL: https://journals.rcsi.science/0320-0108/article/view/232199
- DOI: https://doi.org/10.31857/S0320010823100017
- EDN: https://elibrary.ru/OKJNVG
- ID: 232199
Cite item
Open Access
Access granted
Subscription Access
Abstract
In pulsating X-ray sources a magnetized neutron star is surrounded by an accretion disk whose
structure requires a study. In particular, the dipole magnetic field of the star can partially penetrate the disk
and, freezing into the matter, can give rise to an induced magnetic field in the disk. The field growth can be
limited by its turbulent diffusion. In this paper we calculate such an induced field. The problem is reduced to
solving the induction equation in the presence of diffusion. An analytical solution of the equation has been
obtained, with the radial and vertical structures of the induced field having been calculated simultaneously.
The radial structure is close to the previously predicted dependence on the difference of the angular velocities
of the disk and the magnetosphere: b ∝ Ωs − Ωk, while the vertical structure of the field is close to the linear
proportionality between the field and the height above the equator: b ∝ z. The possibility of the existence of
nonstationary quasi-periodic components of the induced magnetic field is discussed.
Keywords
About the authors
A. V. Kuzin
Sternberg Astronomical Institute, Moscow State University, Moscow, 119234 Russia
Author for correspondence.
Email: alv.kuzin@gmail.com
Россия, Москва
References
- Ванг (Y.-M. Wang), Astron. Astrophys. 183, 257 (1987).
- Ванг (Y.-M. Wang), Astrophys. J. 449, 153 (1995).
- Ванг (Y.-M. Wang), Astrophys. J. 475, 135 (1997).
- Гош и др. (P. Ghosh, F.K. Lamb, and C.J. Pethick), Astrophys. J. 217, 578 (1977).
- Гош, Лэмб (P. Ghosh and F.K. Lamb), Astrophys. J. 232, 259 (1979).
- Гош, Лэмб (P. Ghosh and F.K. Lamb), Astrophys. J. 234, 296 (1979).
- Клужняк, Раппапорт (W. Kluźniak and S. Rappaport), Astrophys. J. 671, 1990 (2007).
- Кэмпбелл (C.G. Campbell), MNRAS 229, 405 (1987).
- Кэмпбелл (C.G. Campbell), Geophys. Astro. Fluid. 63, 179 (1992).
- Лавлейс и др. (R.V.E. Lovelace, M.M. Romanova, and G.S. Bisnovatyi-Kogan), MNRAS 275, 244 (1995).
- Лаи (D. Lai), Astrophys. J. 524, 1030 (1999).
- Липунова и др. (G. Lipunova, K. Malanchev, N. Shakura, and N. Shakura), Astrophys. Space Sc. L. 454 (2018).
- Мэтт, Пудриц (S. Matt and R.E. Pudritz), Astrophys. J. 632, 135 (2005).
- Насо, Миллер (L. Naso and J.C. Miller), Astron. Astrophys. 521, 31 (2010).
- Насо, Миллер (L. Naso and J.C. Miller), Astron. Astrophys. 531, 163 (2011).
- Рековски и др. (M.V. Rekowski, G. Rüdiger, and D. Elstner), Astron. Astrophys. 353, 813 (2000).
- Узденский и др. (D.A. Uzdensky, A. Königl, and C. Litwin), Astrophys. J. 565, 1191 (2002).
- Узденский и др. (D.A. Uzdensky, A. Königl, and C. Litwin), Astrophys. J. 565, 1205 (2002).
Supplementary files
