Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-05T05:09:58.973Z Has data issue: false hasContentIssue false
  • English
  • Français

Single Pulses and the Plasma-physical Processes of Pulsar Radio Emission

Published online by Cambridge University Press:  04 June 2018

Joanna M. Rankin
Joanna M. Rankin*
Affiliation:
Physics Department, University of Vermont, Burlington, VT 05405USA: [email protected]
Rights & Permissions [Opens in a new window]

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.

Pulsars were discovered on the basis of their individual pulses, first by Jocelyn Bell and then by many others. This was chart-recorder science as computers were not yet in routine use. Single pulses carry direct information about the emission process as revealed in the detailed properties of their polarization characteristics. Early analyses of single pulses proved so dizzyingly complex that attention shifted to study of average profiles. This is turn led to models of pulsar emission beams—in particular the core/double-cone model—which now provides a foundation for understanding single-pulse sequences. We mention some of the 21stC single-pulse surveys and conclude with a brief discussion of our own recent analyses leading to the identification of the pulsar radio-emission mechanism of both slow and millsecond pulsars.

Keywords

(stars:) pulsars: generalradiation mechanisms: nonthermalpolarization
Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 13 , Symposium S337: Pulsar Astrophysics the Next Fifty Years , September 2017 , pp. 73 - 78
Copyright
Copyright © International Astronomical Union 2018 

References

Backer, D. C. 1970a, Nature 228, 42CrossRefGoogle Scholar
Backer, D. C. 1970b, Nature 228, 752Google Scholar
Bilous, A. V., Kondratiev, V. I., Kramer, M., Keane, E. F., Hessels, J. W. T., Stappers, B. W., Malofeev, V. M. & Sobey, C. ++ A&A 591, A134Google Scholar
Drake, F. D. & Craft, H. D. 1968, Nature 220, 231Google Scholar
Craft, H. D., Comella, J. M., & Drake, F. D. 1968, Nature 218, 1122Google Scholar
Hankins, T. H. 1971, ApJ 169, 487CrossRefGoogle Scholar
Helfand, D. J., Gotthelf, E. V., & Halpern, J. P. 2001, ApJ 556, 380Google Scholar
Huguenin, G. R., Taylor, J. H., & Troland, T. H. 1970, ApJ 162, 727CrossRefGoogle Scholar
Johnston, S., Hobbs, G., Vigeland, S., Kramer, M., Weisberg, J. M., & Lyne, A. G. 2005, MNRAS 364, 1397Google Scholar
Komesaroff, M. M. 1970a, Nature 225, 612CrossRefGoogle Scholar
Lyne, A. G. 1971, MNRAS 153, 27Google Scholar
Lyne, A. G., Smith, F. G., & Graham, D. A. 1971, MNRAS 153, 337CrossRefGoogle Scholar
Manchester, R. N., ApJ Suppl., 23, 283Google Scholar
Melikidze, G. I., Mitra, D., & Gil, J. 2014, ApJ, 794, 105.CrossRefGoogle Scholar
Mitra, D. & Rankin, J. M. 2011, ApJ, 727, 92 (ET IX)Google Scholar
Mitra, D., Arjunwadkar, M., & Rankin, J. M., 2015, ApJ, 806, 236Google Scholar
Mitra, D., Melikidze, G. I., & Gil, J. (2015) ASI Conference Series, 2015, Vol. 12, pp 43-46; Edited by Indranil Chattopadhyay, Anuj Nandi, Santabrata Das & Samir MandalGoogle Scholar
Mitra, D., Rankin, J. M., & Arjunwadkar, M., 2016, ApJ, 460, 3063Google Scholar
Mitra, D., Basu, R., Maciesiak, K., Skrzypczak, A., Melikidze, G. I., Szary, A., & Krzeszowski, K. 2016, ApJ 833, 28CrossRefGoogle Scholar
Radhakrishnan, V., & Cooke, D. J., 1969, Ap. Lett, 3, 225Google Scholar
Rankin, J. M. 1983, ApJ, 274, 333 (ET I)Google Scholar
Rankin, J. M. 1990, ApJ, 352, 247 (ET IV)Google Scholar
Rankin, J. M. 1993a, ApJ, 405, 285 (ET VIa)CrossRefGoogle Scholar
Rankin, J. M. 1993b, ApJ Suppl., 85, 145 (ET VIb)Google Scholar
Rankin, J. M., 2007, ApJ, 644, 443Google Scholar
Rankin, J. M., 2015, ApJ, 804, 112CrossRefGoogle Scholar
Rankin, J. M., Archibald, A., Hessels, J., van Leeuwen, J., Mitra, D., Ransom, S., Stairs, I., van Straten, W., & Weisberg, J. M., 2017, ApJ, 845, 23Google Scholar
Taylor, J. H. & Huguenin, G. R. ApJ, 167, 273Google Scholar
Taylor, J. H., Huguenin, G. R., Hirsch, R. M., & Manchester, R. N., 1971, Ap. Lett, 9, 205Google Scholar
Vitkevich, V. V., Alekseev, Yu. I., Zhuravlev, V. F., & Shitov, Yu. P. 1969, Nature 224, 49Google Scholar
Weltevrede, P., Stappers, B. W., & Edwards, R. T., 2006, A&A, 445, 243Google Scholar
Weltevrede, P., Edwards, R. T., & Stappers, B. W., 2007, A&A, 469, 607Google Scholar