FAST Polarization Catalog of FRB 20240114A
Abstract
Polarization measurements of fast radio bursts (FRBs) probe the magnetized plasma surrounding their central engines. FRB~20240114A is an exceptionally active repeating source, with 17,356 bursts detected between 2024 January 28 and 2025 May 30 by FAST, enabling time-resolved polarimetric studies. In this work, we present a polarimetric catalog of 6,131 bright bursts (with a signal-to-noise ratio S/N ≥ 20, 35.3% of the total sample), including arrival time (MJDtopo), dispersion measure (DM), burst width (Weff), bandwidth, Faraday rotation measure (RM), linear and circular polarization degrees (DOL, DOC), and intrinsic polarization angle (PA0). We detect a clear temporal evolution of RM: after an initial stable phase, it decreases linearly by 200 rad\ m-2 over 200 days, forming a bimodal distribution, whereas DM remains stable at 528.9 pc\ cm-3. The linear polarization fraction is generally high, with the 3σ lower bound around 76%, while circular polarization is low, with 1,157 of 17,356 bursts (6.67%) having DOC ≥10%. We perform a power-law fit between |V|/I and |RM|, which yields an index of -2.98 0.80. It is found that the combined 2D distribution of L/I versus V/I remains stable, implying that the emission mechanism is largely invariant. Our PA0 measurements show a broad, non-uniform distribution, implying a complex emission geometry. These results suggest that FRB~20240114A resides in a dynamically evolving magneto-ionic environment. This catalog provides a foundation for studies of repeating FRB progenitors and their environments.
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