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On the mean profiles of radio pulsars – II. Reconstruction of complex pulsar light curves and other new propagation effects

Hayk HakobyanDepartment of Astrophysical Sciences, Peyton Hall, Princeton University, Princeton, NJ 08544, USAВ. С. БескинMoscow Institute of Physics and Technology, Dolgoprudny, Institutsky per., 9, Moscow Region 141700, RussiaAlexander A. PhilippovDepartment of Astrophysical Sciences, Peyton Hall, Princeton University, Princeton, NJ 08544, USA
2017en
ABI

Аннотация

Our previous paper outlined the general aspects of the theory of radio light curve and polarization formation for pulsars. We predicted the one-to-one correspondence between the tilt of the linear polarization position angle of the the circular polarization. However, some of the radio pulsars indicate a clear deviation from that correlation. In this paper, we apply the theory of the radio wave propagation in the pulsar magnetosphere for the analysis of individual effects leading to these deviations. We show that within our theory the circular polarization of a given mode can switch its sign, without the need to introduce a new radiation mode or other effects. Moreover, we show that the generation of different emission modes on different altitudes can explain pulsars, that presumably have the X-O-X light-curve pattern, different from what we predict. General properties of radio emission within our propagation theory are also discussed. In particular, we calculate the intensity patterns for different radiation altitudes and present light curves for different observer viewing angles. In this context we also study the light curves and polarization profiles for pulsars with interpulses. Further, we explain the characteristic width of the position angle curves by introducing the concept of a wide emitting region. Another important feature of radio polarization profiles is the shift of the position angle from the centre, which in some cases demonstrates a weak dependence on the observation frequency. Here we demonstrate that propagation effects do not necessarily imply a significant frequency-dependent change of the position angle curve.

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