Add to ORKGEvolutionary synthesis models for stellar populations of various ages and chemical compositions are constructed with the approach described in Maraston (1998), in which the Fuel Consumption Theorem is used to evaluate the energetics of Post Main Sequence stars. We present here the synthetic `stellar' mass-to-light ratios (M*/L) in the U,B,V,R,I,J,H,K photometric bands, as functions of age and chemical composition, for single burst populations. Taking into account the contribution by stellar dead remnants, the computed M*/L ratios can be directly compared to those measured in early-type galaxies. The dependence of M*/L ratios on the IMF slope is also explored. The most interesting result is that the M*/L_B ratio of a 15 Gyr stellar populatio...
Using self-consistent chemodynamical simulations including star formation, supernova feedback, and c...
Recent calculations of evolutionary tracks of TP-AGB stars of different mass and metallicity by Mari...
We present new chemical-spectrophotometric models of population synthesis to predict the spectral ev...
In this paper we emphasize the close connection between the chemical and spectrophotometric evolutio...
In this paper we emphasize the close connection between the chemical and spectrophotometric evolutio...
Our unified chemical and spectrophotometric evolution code allows to simultaneously study the ISM ab...
We investigate the mass-to-light ratios of stellar populations as predicted by stellar population sy...
We investigate the mass-to-light ratios of stellar populations as predicted by stellar population sy...
Oxygen to iron abundance ratios of metal-poor stars provide information on nucleosynthesis yields fr...
The basic assumptions behind Population Synthesis and Spectral Evolution models are reviewed. The nu...
We present new chemical-spectrophotometric models of population synthesis to predict the spectral ev...
A new set of evolutionary synthesis spectra are presented for Simple Stellar Populations (SSPs) cov...
In this work we present new, high-to-intermediate spectral resolution evolutionary population synthe...
We present realistic models for massive Population III stars and stellar populations based on non-LT...
Population synthesis models (PSMs) are fundamental tools to study the star formation history and IMF...
Using self-consistent chemodynamical simulations including star formation, supernova feedback, and c...
Recent calculations of evolutionary tracks of TP-AGB stars of different mass and metallicity by Mari...
We present new chemical-spectrophotometric models of population synthesis to predict the spectral ev...
In this paper we emphasize the close connection between the chemical and spectrophotometric evolutio...
In this paper we emphasize the close connection between the chemical and spectrophotometric evolutio...
Our unified chemical and spectrophotometric evolution code allows to simultaneously study the ISM ab...
We investigate the mass-to-light ratios of stellar populations as predicted by stellar population sy...
We investigate the mass-to-light ratios of stellar populations as predicted by stellar population sy...
Oxygen to iron abundance ratios of metal-poor stars provide information on nucleosynthesis yields fr...
The basic assumptions behind Population Synthesis and Spectral Evolution models are reviewed. The nu...
We present new chemical-spectrophotometric models of population synthesis to predict the spectral ev...
A new set of evolutionary synthesis spectra are presented for Simple Stellar Populations (SSPs) cov...
In this work we present new, high-to-intermediate spectral resolution evolutionary population synthe...
We present realistic models for massive Population III stars and stellar populations based on non-LT...
Population synthesis models (PSMs) are fundamental tools to study the star formation history and IMF...
Using self-consistent chemodynamical simulations including star formation, supernova feedback, and c...
Recent calculations of evolutionary tracks of TP-AGB stars of different mass and metallicity by Mari...
We present new chemical-spectrophotometric models of population synthesis to predict the spectral ev...