info:eu-repo/semantics/article
Activity-rotation in the dM4 star Gl 729: A possible chromospheric cycle
Fecha
2020-11Registro en:
Ibañez Bustos, Romina Valeria; Buccino, Andrea Paola; Messina, S.; Lanza, A. F.; Mauas, Pablo Jacobo David; Activity-rotation in the dM4 star Gl 729: A possible chromospheric cycle; EDP Sciences; Astronomy and Astrophysics; 644; 11-2020; 1-14
0004-6361
CONICET Digital
CONICET
Autor
Ibañez Bustos, Romina Valeria
Buccino, Andrea Paola
Messina, S.
Lanza, A. F.
Mauas, Pablo Jacobo David
Resumen
Aims. Recently, new debates about the role of layers of strong shear have emerged in stellar dynamo theory. Further information on the long-term magnetic activity of fully convective stars could help determine whether their underlying dynamo could sustain activity cycles similar to the solar one. Methods. We performed a thorough study of the short- and long-term magnetic activity of the young active dM4 star Gl 729. First, we analyzed long-cadence K2 photometry to characterize its transient events (e.g., flares) and global and surface differential rotation. Then, from the Mount Wilson S-indexes derived from CASLEO spectra and other public observations, we analyzed its long-term activity between 1998 and 2020 with four different time-domain techniques to detect cyclic patterns. Finally, we explored the chromospheric activity at different heights with simultaneous measurements of the Hα and the Na I D indexes, and we analyzed their relations with the S-Index. Results. We found that the cumulative flare frequency follows a power-law distribution with slope ~-0.73 for the range 1032-1034 erg. We obtained Prot = (2.848 ± 0.001) days, and we found no evidence of differential rotation. We also found that this young active star presents a long-term activity cycle with a length of about 4 yr; there is less significant evidence of a shorter cycle of 0.8 yr. The star also shows a broad activity minimum between 1998 and 2004. We found a correlation between the S index, on the one hand, and the Hα the Na I D indexes, on the other hand, although the saturation level of these last two indexes is not observed in the Ca lines. Conclusions. Because the maximum-entropy spot model does not reflect migration between active longitudes, this activity cycle cannot be explained by a solar-type dynamo. It is probably caused by an α2-dynamo.