Dispersion of inferred SNe Ia/SNe II ratios for current models of supernova nucleosynthesis

We have estimated the dispersion of the inferred relative frequencies of Type-Ia and Type-II supernovae (N_Ia/N_II) in our Galaxy by fitting the numerical results of supernova nucleosynthesis to the solar-system abundances. The ratio N_Ia/N_II is estimated to be 0.056-0.14, which is consistent with the observation, if the model of Woosley and Weaver (1995, AAA 64.065.030 WW95) is adopted for Type-II supernovae (SNe II). On the other hand, the upper limit of N_Ia/N_II becomes too large for the model of Hashimoto (1995, AAA 64.065.034 Ha95). However, Ha95 can fit the solar values better than WW95 as far as the abundant nuclei are concerned. These results mean that Ha95 can reproduce the main nuclei of the solar-system well and that WW95 can reproduce the solar values over a wide mass-number range. We also note that N_Ia/N_II tends to become smaller if the delayed detonation model is adopted for Type-Ia supernovae (SNe Ia). The dispersion of N_Ia/N_II obtained in the present investigation is larger than that concluded by Tsujimoto et al. (1995, AAA 64.125.075), which will have an influence on the estimate of the average life time of SNe Ia's progenitors and/or the star-formation rate history in our galaxy.