| Περίληψη: | We derive all contributions to the dispersion measure (DM) of electromagnetic pulses to linear
order in cosmological perturbations, including both density fluctuations and relativistic effects. We
then use this result to calculate the power spectrum of DM-based cosmological observables to linear
order in perturbations. In particular we study two cases: maps of the dispersion measure from a
set of localized sources (including the effects of source clustering), and fluctuations in the density of
DM-selected sources. The impact of most relativistic effects is limited to large angular scales, and
is negligible for all practical applications in the context of ongoing and envisaged observational programmes targetting fast radio bursts. We compare the leading contributions to DM-space clustering,
including the effects of gravitational lensing, and find that the signal is dominated by the fluctuations
in the free electron column density, rather than the local source clustering or lensing contributions.
To compensate for the disappointing irrelevance of relativistic effects, we re-derive them in terms of
the geodesic equation for massive particles in a perturbed Friedmann-Robertson-Walker metric.
|
|---|