Photometric modelling of starspots - I. A Barnes-Evans-like surface brightness-colour relation using (Ic - K)

DOI: 
Publication date: 
01/01/1999
Main author: 
Amado P.J.
IAA authors: 
Amado, P.J.
Authors: 
Amado P.J., Butler C.J., Byrne P.B.
Journal: 
Monthly Notices of the Royal Astronomical Society
Publication type: 
Article
Volume: 
310
Pages: 
1023-1032
Number: 
Abstract: 
In the first part of this work, the empirical correlation of stellar surface brightness Fv with (Ic - K) broad-band colour is investigated by using a sample of stars cooler than the Sun. A bilinear correlation is found to represent well the brightness of G, K and M giant stars. The change in slope occurs at (Ic - K) ∼ 2.1 or at about the transition from K to M spectral types. The same relationship is also investigated for dwarf stars and found to be distinctly different from that of the giants. The dwarf star correlation differs by an average of -0.4 in (Ic - K) or by a maximum in Fv of ∼ -0.1, positioning it below that of the giants, with both trends tending towards convergence for the hotter stars in our sample. The flux distribution derived from the Fv - (Ic - K) relationship for the giant stars, together with that derived from an Fv - (V - K) relationship and the blackbody flux distribution, is then utilized to compute synthetic light V and colour (V - R)c, (V - I)c and (V - K) curves of cool spotted stars. We investigate the effects on the amplitudes of the curves by using these Fv-colour relations and by assuming the effective gravity of the spots to be lower than the gravity of the unspotted photosphere. We find that the amplitudes produced by using the Fv - (Ic - K) relationship are larger than those produced by the other two brightness correlations, meaning smaller and/or warmer spots.
Database: 
SCOPUS
Keywords: 
Stars: activity; Stars: late-type