Dynamic emission properties of pulsars B0943+10 and B1822-09 - I. Comparison, and the discovery of a `Q'-mode precursor

Details Dynamic emission properties of pulsars B0943+10 and B1822-09 - I. Comparison, and the discovery of a `Q'-mode precursor Dynamic emission properties of pulsars B0943+10 and B1822-09 - I. Comparison, and the discovery of a `Q'-mode precursor

May 2010

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010mnras.404...30b&link_type=abstract

Monthly Notices of the Royal Astronomical Society, Volume 404, Issue 1, pp. 30-41.

Astronomy and Astrophysics

Astronomy

6

Mhd, Plasmas, Polarization, Pulsars: General, Pulsars: Individual: B0943+10, Pulsars: Individual: B1822-09

Scientific paper

This paper reports new observations of pulsars B0943+10 and B1822-09 carried out with the Arecibo Observatory and the Giant Metrewave Radio Telescope, respectively. Both stars exhibit two stable emission modes. We report the discovery in B0943+10 of a highly linearly polarized `precursor' (PC) component that occurs primarily in only one mode. This emission feature closely resembles B1822-09's PC which also occurs brightly in only one mode. B0943+10's other mode is well known for its highly regular drifting subpulses that are apparently produced by a rotating `carousel' system of 20 `beamlets.' Similarly, B1822-09 exhibits subpulse-modulation behaviour only in the mode where its PC is absent. We survey our 18 h of B0943+10 observations and find that the `sideband'-modulation features, from which the carousel-rotation time can be directly determined, occur rarely - less than 5 per cent of the time - but always indicating 20 `beamlets'. We present an analysis of B1822-09's modal modulation characteristics at 325 MHz and compare them in detail with B0943+10. The pulsar never seems to null, and we find a 43-rotation-period P3 feature in the star's `Q' mode that modulates the interpulse (IP) as well as the conal features in the main pulse (MP). We conclude that B1822-09 must have a nearly orthogonal geometry and that its carousel circulation time is long compared to the modal subsequences available in our observations, and the MP/IP separation is almost exactly 180°. We conclude the PCs for both stars are incompatible with core-cone emission. We assess the interesting suggestion by Dyks et al. that downward-going radiation produces B1822-09's PC emission.

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