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Investigating FRB 20240114A with FAST: Morphological Classification and Drifting Rate Measurements in a Burst-Cluster Framework

Published 19 Jul 2025 in astro-ph.HE | (2507.14711v1)

Abstract: This study investigates the morphological classification and drifting rate measurement of the repeating fast radio burst (FRB) source FRB20240114A using the Five-hundred-meter Aperture Spherical Telescope (FAST). Detected on January 14, 2024, FRB20240114A showed an exceptionally high burst rate. During a continuous 15,780-second monitoring session on March 12, 2024, 3,203 bursts (2,109 burst-clusters) were detected. We refine the definitions of sub-bursts, bursts, and burst-clusters. Using an average dispersion measure (DM) of 529.2 pc cm${-3}$, burst-clusters were classified into Downward Drifting, Upward Drifting, No Drifting, No Evidence for Drifting, Not-Clear, and Complex categories. Notably, 233 (23.82%) of the 978 drifting burst-clusters showed upward drifting. Excluding 142 upward drifting single-component clusters, the remaining 91 upward drifting double- or multiple-components clusters account for 10.89% of the drifting sample. Further restricting to those with consecutive time intervals, only 9 upward drifting bursts remain. An inverse correlation is found between drifting rate and sub-burst effective width. Upward drifting single-component clusters tend to have smaller effective widths, bandwidths, and fluxes than downward drifting ones. For these upward drifting clusters, drifting rate increases with peak frequency. A Kolmogorov-Smirnov test reveals longer consecutive intervals in upward drifting clusters compared to downward ones, suggesting differing underlying mechanisms.

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