EVOLUTION OF MAGNETIC FIELD AROUND NEUTRON STARS
DOI:
https://doi.org/10.1808/p5861377Ключевые слова:
Evolution of magnetic field; magnetic field around neutron stars; Behavior and properties of evolution magnetic field; Collective motion driven by weak interactions in a matter; Movement of charged and neutral particles relative to each other; Hall drift;Аннотация
In this work, we delve into the key physical processes that govern magnetic fields and their evolution within neutron stars. Our investigation encompasses several crucial aspects: The fundamental properties of the matter constituting neutron stars. Understanding the extreme density, pressure, and composition of this matter is essential for accurately modeling the behavior of magnetic fields within them. Competing processes of the origin of powerful magnetic fields. We explore various hypotheses for how these fields may have formed during the birth of a neutron star or through subsequent processes. The limitations and mechanisms that influence the change of the magnetic field over time. This includes factors that may cause the field to weaken or strengthen over time, as well as potential instabilities that could play a role. A detailed analysis of the Hall drift. This specific phenomenon, where charged particles are separated due to a combination of their motion and the magnetic field, can significantly impact the evolution of the overall field.
Библиографические ссылки
Reisenegger, A. 2001a, in Magnetic Fields across the Hertzsprung-Russell Diagram, eds. G. Mathys, S. K. Solanki, & D. T. Wickramasinghe, ASP Conference Series, vol. 248, p. 469 (astro-ph/0103010)
Reisenegger, A. 2005, in Strong Magnetic Fields and Neutron Stars, eds. H. J. Mosquera Cuesta, H. Pérez Rojas, & C. Z. Vasconcellos, in press (astro-ph/0307133)
Fernández, R., & Reisenegger, A. 2005, ApJ, in press
Jones, P. B. 1999, PRL, 83, 3589
Reisenegger, A. 1995, ApJ, 442, 749
Jones, P. B. 2004, PRL, 93, 221101
Pethick, C. J. 1992, in Structure & Evolution of Neutron Stars, eds. D. Pines, R. Tamagaki, & S. Tsuruta (Redwood City: Addison-Wesley), 115
Goldreich, P., & Reisenegger, A. 1992, ApJ, 395, 250
Shapiro, S. L., & Teukolsky, S. A. 1983, Black Holes, White Dwarfs, and Neutron Stars (New York: Wiley)
Baym, G., Pethick, C., & Pines, D. 1969, Nature, 224, 675
Yakovlev, D. G., & Pethick, C. J. 2004, ARA&A, 42, 169
Page, D., Lattimer, J. M., Prakash, M., & Steiner, A. W. 2004, ApJSS, 155, 623
Mendell, G. 1998, MNRAS, 296, 903
Ruderman, M. 2004, in The Electromagnetic Spectrum of Neutron Stars, NATO-ASI Proceedings, eds. A. Baykal, S. K. Yerli, M. Gilfanov, & S. Grebenev, in press (astro-ph/0410607)
Reisenegger, A. 2001b, ApJ, 550, 860
Reisenegger, A., & Goldreich, P. 1992, ApJ, 395, 240
Thompson, C., & Duncan, R. 1996, ApJ, 473, 322
Arras, P., Cumming, P., & Thompson, C. 2004, ApJ, 608, L49
Cumming, A., Arras, P., & Zweibel, E. 2004, ApJ, 609, 999
Hollerbach, R., & Rüdiger, G. 2004, MNRAS, 347, 1273
Rheinhardt, M., Konenkov, D., & Geppert, U. 2004, A&A, 420, 631
Biskamp, D., et al. 1999, Phys. Plasmas, 6, 751
Vainshtein, S. I., Chitre, S. M., & Olinto, A. V. 2000, Phys. Rev. E, 61, 4422
Araya, P. A. 2002, undergraduate thesis, P. Universidad Católica de Chile
Prieto, J. P. 2004, undergraduate thesis, P. Universidad Católica de Chile, and poster at this conference
Braithwaite, J., & Spruit, H. C. 2004, Nature, 431, 819
Загрузки
Опубликован
Выпуск
Раздел
Лицензия
Это произведение доступно по лицензии Creative Commons «Attribution» («Атрибуция») 4.0 Всемирная.
