Radio-Continuum Spectra of Pulsars with Free-Free Thermal Absorption
Abstract
The radio continuum spectra of pulsars (PSRs) exhibit a wide variety of shapes, that are interpreted as pure and broken power laws, power laws with turnovers or cut-offs, and logarithmic-parabolic profiles. A notable fraction of these have well-defined power laws with -2.1 exponential turnovers, indicative of free-free thermal absorption along the line-of-site. We analyse a sample of 63 PSRs with such spectral shapes, compiled from four previously published studies, to investigate their statistical properties. We normalise each spectrum to a characteristic frequency and flux density of its own, facilitating a consistent treatment across the four sub-samples. We show these two fitted parameters are correlated by a power law, with its slope reflecting the median spectral index (α -2.0) of PSR emission. We found that the turnover frequencies in our sample are typically high, clustering around 558 MHz, implying notably high emission measures (EM 105 pc cm-6) for an inferred thermal absorbing medium with electron temperature of Te=8000 K. Moreover, by combining these EM with dispersion measures (DM) derived from pulse time delays, we break the degeneracy between electron density and path length of the absorbers. This reveals a discrete near-in population of absorbers characterised by small sizes (L 0.1\,pc) and high electron densities (ne 103\,cm-3 )), which exhibit a clear size-density anticorrelation reminiscent of that observed in Galactic and extragalactic HII regions.
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