Comparison of Burst Properties between FRB 20190520B and FRB 20121102A

Abstract

A comparative analysis of the individual bursts between FRB 20190520B and FRB 20121102A is presented by compiling a sample of bursts in multiple wavelengths. It is found that the peak frequency (p) distribution of the bursts of FRB 20190520B illustrates four discrete peaks in 1-6 GHz and their spectral width distribution can be fitted with a log-normal function peaking at 0.35 GHz. The discrete p distribution and the narrow-banded spectral feature are analogous to FRB 20121102A. The burst duration of FRB 20190520B in the rest frame averages 10.72 ms, longer than that of FRB 20121102A by a factor 3. The specific energy (E μ c) at 1.25 GHz of FRB 20190520B observed with the FAST telescope narrowly ranges in [0.4, 1]× 1038 erg, different from the bimodal E μ c distribution of FRB 20121102A. Assuming a Gaussian spectral profile of the bursts, our Monte Carlo simulation analysis suggests that a power-law (PL) or a cutoff power-law (CPL) energy function can comparably reproduce the E μ c distribution of FRB 20190520B. The derived energy function index of the PL model is 4.46 0.17, much steeper than that of FRB 20121102A (1.82+0.10-0.30). For the CPL model, we obtain an index of 0.47 and a cutoff energy of 7.4× 1037 erg. Regarding the predicted p distribution in 1-2 GHz, the CPL model is more preferred than the PL model. These results indicate that FRB 20190520B and FRB 20121102A shares similar spectral properties, but their energy functions are intrinsically different.