# Constraining the Fast Radio Burst (FRB) properties using the detections   at Parkes, ASKAP and CHIME

**Authors:** Siddhartha Bhattacharyya, Somnath Bharadwaj

arXiv: 1903.12404 · 2019-09-10

## TL;DR

This paper uses data from multiple radio telescopes to constrain the properties of FRBs, specifically their spectral index and energy, considering different scattering models and ruling out some empirical models.

## Contribution

It provides the first combined constraints on FRB spectral index and energy using multi-telescope data and models pulse broadening effects.

## Key findings

- Allowed spectral index range: -6.0 to -3.6
- Allowed energy range: 1.79×10^{33} J to 5.41×10^{33} J
- Rules out certain empirical scattering models

## Abstract

We demonstrate how the FRB redshift and fluence distributions from the Parkes, ASKAP and CHIME telescopes can be used together to constrain the properties of the FRB population. Here we consider a simple model where all the FRBs have the same spectral index $\alpha$ and rest frame energy $E$ (specified in a fixed band $2128\;{\rm MHz}$ to $2848\;{\rm MHz}$). We find that the constraints on $(\alpha,E)$ depend on the scattering model for pulse broadening in the inter-galactic medium. For no scattering we find that there is a region of parameter space where the predictions are simultaneously consistent with the FRB redshift and fluence distributions at all three telescopes. The allowed $\alpha$ range is bounded by $-6.0\leq \alpha \leq-3.6$ and the allowed $E$ range is bounded by $1.79\times 10^{33}{\rm J} \leq E \leq 5.41\times 10^{33}{\rm J}$. Our analysis also rules out an empirical scattering model where the FRB pulse broadening in the IGM is predicted by extrapolating pulse broadening observed for pulsars in the ISM.

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Source: https://tomesphere.com/paper/1903.12404