Traditional pulsar polarization sweep analysis starts from the point dipole rotating vector model (RVM) approximation. If augmented by a measurement of the sweep phase shift, one obtains an estimate of the emission altitude (Blaskiewicz et al.). However, a more realistic treatment of field line sweepback and finite altitude effects shows that this estimate breaks down at modest altitude ~0.1 R LC. Such radio emission altitudes turn out to be relevant to the young energetic and millisecond pulsars that dominate the γ-ray population. We quantify the breakdown height as a function of viewing geometry and provide simple fitting formulae that allow observers to correct RVM-based height estimates, preserving reasonable accuracy to R ~ 0.3 R LC. We discuss briefly other observables that can check and improve height estimates.
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机译:传统的脉冲星极化扫描分析从点偶极子旋转矢量模型(RVM)逼近开始。如果通过对扫描相移的测量来增强,则可以获得对发射高度的估计(Blaskiewicz等)。但是,对场线后掠和有限的高度影响的更现实的处理表明,该估计值在约0.1 R LC的中等高度下会分解。事实证明,这种无线电发射高度与支配γ射线的年轻高能脉冲星和毫秒级脉冲星有关。我们将击穿高度作为查看几何的函数进行量化,并提供简单的拟合公式,使观察者可以校正基于RVM的高度估计,并在R〜0.3 R LC范围内保持合理的精度。我们简要讨论了可以检查和改进高度估计的其他可观察物。
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