Searching for periodic signals and quasi-periodic oscillations from an extremely active cycle of FRB 20240114A (2507.14708v1)

Abstract: Possible periodic features in fast radio bursts (FRBs) may provide insights into their astrophysical origins. Using extensive observations from the Five-hundred-meter Aperture Spherical radio Telescope (FAST), we conduct a search for periodicity across multiple timescales in the exceptionally active repeater source FRB 20240114A. A detailed analysis of 11,553 bursts reveals three candidate periodic signals (3.4-6$\sigma$), with frequencies of approximately 1.486 Hz, 1.576 Hz, and 1.865 Hz. This finding offers tentative evidence for a potential association with magnetar spin, although further studies are necessary for definitive confirmation. On longer timescales, a 67.5-69.2 day activity cycle is identified using two independent methods, with a significance exceeding $3.5\sigma$. In the burst time series, quasi-periodic oscillations (QPOs) in the range of a few hundred Hz are identified, with a significance exceeding 5$\sigma$, and a strong correlation is found between their central frequencies and widths (Pearson $R=0.97$). The decomposed temporal profiles of these QPOs suggest an amplitude-modulated quasi-periodic signal. The burst clusters manifest periodic burst trains ranging from a few milliseconds to several tens of milliseconds, revealing transient periodic characteristics. Despite the unprecedentedly large sample size from a single repeating FRB source during a time-continuous active period, no stable periodic signals are detected. Instead, there are multiple QPOs that dynamically evolve over time. These results clarify the bias of previous studies that occasionally detected QPOs believed to be potentially related to the spin of compact objects.