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Wave propagation in pulsar magnetospheres

Published online by Cambridge University Press:  20 March 2013

Chen Wang
Affiliation:
National Astronomical Observatories, Chinese Academy of Sciences. A20 Datun Road, Chaoyang District, Beijing 100012, China email: [email protected], [email protected]
Dong Lai
Affiliation:
Department of Astronomy, Cornell University, Ithaca, NY 14853, USA email: [email protected]
Jinlin Han
Affiliation:
National Astronomical Observatories, Chinese Academy of Sciences. A20 Datun Road, Chaoyang District, Beijing 100012, China email: [email protected], [email protected]
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Abstract

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We study the propagation effects of radio waves in a pulsar magnetosphere, composed of relativistic electron-positron pair plasmas streaming along the magnetic field lines and corotating with the pulsar. We critically examine the various physical effects that can potentially influence the observed wave intensity and polarization. We numerically integrate the transfer equations for wave polarization in the rotating magnetosphere, taking account of all the propagation effects in a self-consistent manner. For typical magnetospheric plasma parameters produced by pair cascade, we find that the observed radio intensity and polarization profiles can be strongly modified by the propagation effects. Some applications of our results are discussed.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2013

References

Arons, J. & Barnard, J. J. 1986, ApJ, 302, 120CrossRefGoogle Scholar
Barnard, J. J. & Arons, J. 1986, ApJ, 302, 138CrossRefGoogle Scholar
Blaskiewicz, M., Cordes, J. M., & Wasserman, I. 1991, ApJ, 370, 643CrossRefGoogle Scholar
Cheng, A. F. & Ruderman, M. A. 1979, ApJ, 229, 348CrossRefGoogle Scholar
Cordes, J. M. 1978, ApJ, 222, 1006CrossRefGoogle Scholar
Han, J. L., Manchester, R. N., Xu, R. X., & Qiao, G. J. 1998, MNRAS, 300, 373Google Scholar
Kijak, J. & Gil, J. 2003, A&A, 397, 969Google Scholar
Kramer, M., Xilouris, K. M., Jessner, A., et al. 1997, A&A, 322, 846Google Scholar
Luo, Q. H. & Melrose, D. B. 2001, MNRAS, 325, 187CrossRefGoogle Scholar
Lyubarsky, Y. 2008, in 40 YEARS OF PULSARS, eds. Bassa, C., Wang, Z., Cumming, A., & Kaspi, V. M., AIP Conf. Ser., 983, 29CrossRefGoogle Scholar
Lyubarskii, Y. E. & Petrova, S. A., 1998, Ap&SS, 262, 379Google Scholar
Petrova, S. A. 2006, MNRAS, 366, 1539Google Scholar
Wang, C. & Lai, D. 2009, MNRAS, 398, 515CrossRefGoogle Scholar
Wang, C., Lai, D., & Han, J. L. 2010, MNRAS, 403, 569CrossRefGoogle Scholar