Cool Stars 14 - Submitted Abstract # 102 This version created on 05 October 2006 Potential Impact of the EVLA on Studies of Thermal Radio Emission from Cool Evolved K-Early M Star Winds Graham M. Harper, University of Colorado Jessica E. Bartley, University of Colorado Alexander Brown, University of Colorado Cm-radio observations of evolved K and M stars made at the VLA and ATCA, and subsequent detailed atmospheric modeling, have revealed that the thermal emission originates from the wind acceleration region close to the star. The temperature and density gradients can only be coarsely described for the handful of stars with existing two or three wavelength detections. The EVLA will provide an order of magnitude increase in sensitivity over the VLA, coming mainly from the increase in available correlator band-width, and this will offer the opportunity to map the density and temperature structure of the stellar winds with unprecedented clarity. We present new radio fluxes for cool evolved stars (alpha TrA, gamma Cru, beta Gru, and R Dor) and use these and existing VLA data to examine the role that the EVLA will play in future wind studies. The research is funded by the undergraduate research component of GALEX Evolution of Stellar Dynamos (NNG05GE06G) and NSF grant 0206367. ----------------------------------