Hostname: page-component-77c89778f8-m8s7h Total loading time: 0 Render date: 2024-07-17T17:34:07.040Z Has data issue: false hasContentIssue false
  • English
  • Français

Inverse Compton Scattering in pulsar physics

Published online by Cambridge University Press:  12 April 2016

G.J. Qiao
G.J. Qiao*
Affiliation:
Department of Geophysics, Peking University, Beijing 100871, China

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Inverse Compton Scattering (ICS) is a very important process not only in inner gap physics, but also for radio emission. ICS of high energy particles with thermal photons is the dominant and a very efficient mechanism of the particle energy loss above the neutron star surface, and is an important process in causing gap breakdown. The pulsar distribution in the PP diagram and the observed mode changing phenomenon of some pulsars can be expained by the sparking conditions due to ICS. ICS of the secondary particles with the low frequency wave from the inner gap sparking can be responsible for radio emission. In this ICS model, many observational features of pulsar radio emission can be explained, such as: one core and two conal emission components, their different emission altitudes and relative time delay effects; spectral behavior of pulse profiles; the behavior of the linear polarization and position angle.

Type
Part 3 Radio Emission Processes
Information
International Astronomical Union Colloquium , Volume 160: Pulsars: Problems and Progress , 1996 , pp. 159 - 162
Copyright
Copyright © Astronomical Society of the Pacific 1996

References

Beskin, V.S., Gurevich, A.V., Istomin, Y.N., 1988, ApSS 38, 437 Google Scholar
Bednarek, W., Cremonesi, O., Treves, A., 1992, ApJ 390, 489 CrossRefGoogle Scholar
Chang, H.K., 1995, A&A 301, 456 Google Scholar
Daugherty, J.K., Harding, A.K., 1989, ApJ 336, 861 CrossRefGoogle Scholar
Dermer, C.D., 1990, ApJ 360, 197 CrossRefGoogle Scholar
Gil, J.A., Han, J.L., 1996, ApJ 458, 265 CrossRefGoogle Scholar
Lin, W.P., Qiao, G.J., 1995, preprintGoogle Scholar
Kramer, M., 1994, A&A S 207, 525 Google Scholar
Lyne, A.G., Manchester, R.N., 1988, MNRAS 234, 477 CrossRefGoogle Scholar
Phillips, J.A., Wolszczan, A., 1992, ApJ 385, 273 CrossRefGoogle Scholar
Preece, R.D., Harding, A.K., 1992, ApJ 386, 308 CrossRefGoogle Scholar
Qiao, G.J., 1992, Proc. IAU Collo. 128, p.238 Google Scholar
Qiao, G.J., 1988a, In: High Energy Astrophysics, Bonner, G.B.(ed.) p.88 CrossRefGoogle Scholar
Qiao, G.J., 1988b, Vistas in Astronomy 31, 393 CrossRefGoogle Scholar
Qiao, G.J., Li, C.G., Li, M., 1992, Proc. IAU Collo. 128, p243 Google Scholar
Qiao, G.J., Zhang, B., 1994, Proc. 8th Guo Shoujing Summer School, in pressGoogle Scholar
Qiao, G.J., Zhang, B., 1996, A&A 306, L5 Google Scholar
Rankin, J.M., 1983, ApJ 274, 333 CrossRefGoogle Scholar
Rankin, J.M., 1993, ApJ 405, 285 CrossRefGoogle Scholar
Sturner, S.J., 1995, ApJ 446, 292 CrossRefGoogle Scholar
Wang, D.Y., Wu, X.J., Chen, H., 1988, Vistas in Astronomy 31, 399 CrossRefGoogle Scholar
Wu, X.J., Xu, W., Rankin, J.M., 1992, Proc. IAU Collo. 128, p172 Google Scholar
Xia, X.Y., Qiao, G.J., Wu, X.J., and Hou, Y.Q., 1985, A&A, 152, 93 Google Scholar
Xu, R.X., Qiao, G.J., Han, J.L., 1996, Proc. IAU Collo.160, this volume.CrossRefGoogle Scholar
Zhang, B., Qiao, G.J., 1995, A&A, in pressGoogle Scholar
Zhang, B., Qiao, G.J., Lin, W.P., Han, J.L., 1996, IAU Collo.160, this volume.CrossRefGoogle Scholar
Zhu, Y., Mao, D., Wang, D., Wu, X., 1994, A&A 282, 467 Google Scholar