Cool Stars 14 - Submitted Abstract # 60 This version created on 05 October 2006 Doppler Imaging with temperature dependent LSD Silva Jarvinen, Astrophysikalisches Institut Potsdam Svetlana Berdyugina, Institute of Astronomy ETH-Zentrum We have developed a new code based on the least-square deconvolution (LSD) algorithm elaborated previously by Semel (1989, A&A, 225, 456) and Donati et al. (1997, MNRAS, 291, 658). The original method was used to improve Zeeman signatures in Stokes line profiles by extracting the polarisation information from as many lines as possible. Here we employ Stokes I profiles using all lines which contain a clear starspot signature in the observed spectra, thus we can include lines with unknown Lande factor. To obtain Doppler images of stellar surfaces the inversion code based on the Occamian approach (Berdyugina 1998, A&A, 338, 97) has been modified to incorporate LSD profiles. For the first time the LSD technique is applied to both observed line profiles and to a set of local line profiles using the same mask of spectral lines. This enables us to get temperature dependent LSD local line profiles and to overcome the limitations of the two-temperature approximation previously used with the LSD technique. We have tested our method with different spot distributions and stellar parameters as well as with different noise levels using simulated spectra. The method has also been applied to the observed spectra of active stars. ----------------------------------