Rotational modulation of the linear polarimetric variability of the cool dwarf TVLM 513-46546

Abstract

Aims: We aimed to monitor the optical linear polarimetric signal of the magnetized, rapidly rotating M8.5 dwarf TVLM 513-46546. Methods: R- and I-band linear polarimetry images were collected with the ALFOSC instrument of the 2.56-m Nordic Optical Telescope on two consecutive nights covering about 0.5 and 4 rotation cycles in the R and I filters, respectively. We also obtained simultaneous intensity curves by means of differential photometry. The typical precision of the data is 0.46\% (R), 0.35\% (I) in the linear polarization degree and 9 mmag (R), 1.6 mmag (I) in the differential intensity curves. Results: Strong and variable linear polarization is detected in the R and I filters, with values of maximum polarization (p* = 1.300.35 \%) similar for both bands. The intensity and the polarimetric curves present a sinusoid-like pattern with a periodicity of 1.98 h, which we ascribe to structures in TVLM 513-46's surface synchronized with rotation. We found that the peaks of the intensity and polarimetric curves occur with a phase difference of 0.180.01, and that the maximum of the linear polarization happens nearly half a period (0.590.03) after the radio pulse. We discussed different scenarios to account for the observed properties of the light curves.