The Interstellar Scintillation of the Radio-Loud Magnetar XTE J1810-197

Abstract

We present a comprehensive interstellar scintillation (ISS) study of the radio-loud magnetar XTE~J1810-197, based on six years of multi-frequency monitoring (2018-2024) with the Shanghai Tian Ma Radio Telescope (TMRT) at 7.0, 8.6, and 14.0~GHz. The scintillation parameters--decorrelation bandwidth d, decorrelation time τ d, and drift rate dt/d--are fully characterized. Our measured τ d implies τ d < 4~s at 575-725~MHz under a Kolmogorov spectrum, which is shorter than the magnetar's 5.54~s spin period. This result naturally explains the previously reported absence of pulse-to-pulse coherence at these frequencies. Kinematic modeling locates the dominant scattering screen at 1.60.1~kpc away from the Earth, within the Sagittarius Arm. The screen coincides with the HII region JCMTSE~J180921.2-201932 and is unrelated to the magnetar's 2018 outburst suggested by earlier studies. A scintillation arc detected at 14.0~GHz represents the highest-frequency arc observed to date. The asymmetry of arcs is linearly correlated with a dispersion-measure gradient across the screen (r = 0.959, p < 10-8). We also measure its refractive scintillation timescale, which is only 1.210.19~d. Clear DISS at 14~GHz effectively resolves the debate over a possible strong-to-weak scattering transition at this frequency. These results extend the ISS characterization of magnetars to previously unexplored frequencies and provide a precise probe of the ionized interstellar medium in the Sagittarius Arm.