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ABSTRACT: We present stellar evolutionary models covering the mass range from 0.4 to 1 $M_{\odot}$ calculated for metallicities $Z=0.020$ and 0.001 with the MHD equation of state [CITE] [CITE] [CITE] A parallel calculation using the OPAL [CITE] equation of state has been made to demonstrate the adequacy of the MHD equation of state in the range of 1.0 to 0.8 $M_{\odot}$ (the lower end of the OPAL tables). Below, down to 0.4 $M_{\odot}$, we have justified the use of the MHD equation of state by theoretical arguments and the findings of [CITE] We use the radiative opacities by [CITE] completed with the atomic and molecular opacities by [CITE] We follow the evolution from the Hayashi fully convective configuration up to the red giant tip for the most massive stars, and up to an age of 20 Gyr for the less massive ones. We compare our solar-metallicity models with recent models computed by other groups and with observations. The present stellar models complete the set of grids computed with the same up-to-date input physics by the Geneva group ($Z=0.020$ and 0.001, [CITE] [CITE] and [CITE] $Z=0.008$, [CITE] $Z=0.004$, [CITE] $Z=0.040$, [CITE] $Z=0.10$, [CITE] enhanced mass loss rate evolutionary tracks, [CITE]
http://dx.doi.org/10.1051/aas:1999454.
