465 research outputs found

    Asymmetry of bifurcated features in radio pulsar profiles

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    High-quality integrated radio profiles of some pulsars contain bifurcated, highly symmetric emission components (BECs). They are observed when our line of sight traverses through a split-fan shaped emission beam. It is shown that for oblique cuts through such a beam, the features appear asymmetric at nearly all frequencies, except from a single `frequency of symmetry' nu_sym, at which both peaks in the BEC have the same height. Around nu_sym the ratio of flux in the two peaks of a BEC evolves in a way resembling the multifrequency behaviour of J1012+5307. Because of the inherent asymmetry resulting from the oblique traverse of sightline, each minimum in double notches can be modelled independently. Such a composed model reproduces the double notches of B1929+10 if the fitted function is the microscopic beam of curvature radiation in the orthogonal polarisation mode. These results confirm our view that some of the double components in radio pulsar profiles directly reveal the microscopic nature of the emitted radiation beam as the microbeam of curvature radiation polarised orthogonally to the trajectory of electrons.Comment: 10 pages, 7 figures, printed in MNRA

    Rotation as a source of asymmetry in the double-peak lightcurves of the bright EGRET pulsars

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    We investigate the role of rotational effects in inducing asymmetry present above ~5 GeV in the double-peak lightcurves of the bright EGRET pulsars: Vela, Crab, and Geminga. According to Thompson 2001, the trailing peak dominates over the leading peak above ~5 GeV consistently for all three pulsars, even though this is not the case over the entire energy range of EGRET, i.e. above ~100 MeV. We present the results of Monte Carlo simulations of electromagnetic cascades in a pulsar magnetosphere within a single-polar-cap scenario with rotationally-induced propagation effects of the order of v/c (where v is the local corotation velocity). We find that even in the case of nearly aligned rotators with spin periods of P ~ 0.1 s rotation may lead to asymmetric (with respect to the magnetic axis) magnetic photon absorption which in turn leads to asymmetric gamma-ray pulse profiles. The resulting features - softer spectrum of the leading peak and the dominance of the trailing peak above ~5 GeV - agree qualitatively with the EGRET data of the bright gamma-ray pulsars.Comment: 12 pages, 11 figs, latex2e, accepted for publication by A&

    Model of peak separation in the gamma lightcurve of the Vela pulsar

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    The separation \del between two peaks in the gamma-ray pulse profile is calculated as a function of energy for several polar cap models with curvature-radiation-induced cascades. The Monte Carlo results are interpreted with the help of analytical approximations and discussed in view of the recent data analysis for the Vela pulsar (Kanbach 1999). We find that the behaviour of \del as a function of photon energy ϵ\epsilon depends primarily on local values of the magnetic field, BlocalB_{\rm local}, in the region where electromagnetic cascades develop. For low values of BlocalB_{\rm local} (<1012< 10^{12} G), \del(\epsilon) is kept constant. However, for stronger magnetic fields (\ga 10^{12} G) in the hollow-column model \del decreases with increasing photon energy at a rate dependent on maximum energy of beam particles as well as on viewing geometry. There exists a critical photon energy \et above which the relation \del(\epsilon) changes drastically: for \epsilon > \et, in hollow-column models the separation \del increases (whereas in filled-column model it decreases) rapidly with increasing ϵ\epsilon, at a rate of ∼0.28\sim 0.28 of the total phase per decade of photon energy. The existence of critical energy \et is a direct consequence of one-photon magnetic absorption effects. In general, \et is located close to the high-energy cutoff of the spectrum, thus photon statistics at \et should be very low. That will make difficult to verify the existence of \et in real gamma-ray pulsars. Spectral properties of the Vela pulsar would favour those models which use low values of magnetic field in the emission region (B_{\rm local} \simless 10^{11} G) which in turn implies a constant value of the predicted \del within EGRET range.Comment: 7 pages, 3 figures, 1 table, latex, mn.sty, epsf.sty, MNRAS, in pres

    Altitude-dependent polarization in radio pulsars

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    Because of the corotation, the polarization angle (PA) curve of a pulsar lags the intensity profile by 4r/Rlc rad in pulse phase. I present a simple and short derivation of this delay-radius relation to show that it is not caused by the aberration (understood as the normal beaming effect) but purely by contribution of corotation to the electron acceleration in the observer's frame. Available altitude-dependent formulae for the PA curve are expressed through observables and emission altitude to make them immediately ready to use in radio data modelling. The analytical approximations for the altitude-dependent PA curve are compared with exact numerical results to show how they perform at large emission altitudes. I also discuss several possible explanations for the opposite-than-normal shift of PA curve, exhibited by the pedestal emission of B1929+10 and B0950+08.Comment: 12 pages, 5 figures, accepted by MNRAS after minor change
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