# Table 3 - Yield chemical abundance (Z,Y) for CSPs with different # SFR and enrichment ratio R = (Delta Y/Delta Z) = 3^(a) #______________________________________________________________________ # R = 3 Flat or decreasing SFR with time # __________________________ beta _________________________________ # t9 0.8 0.6 0.4 0.2 0.0 # [Gyr] (Z, Y) (Z, Y) (Z, Y) (Z, Y) (Z, Y) #______________________________________________________________________ 1 0.019 0.286 0.017 0.281 0.016 0.279 0.016 0.278 0.016 0.277 1.5 0.020 0.290 0.019 0.286 0.018 0.283 0.018 0.282 0.017 0.281 2 0.021 0.294 0.020 0.289 0.019 0.287 0.019 0.286 0.018 0.285 3 0.023 0.300 0.022 0.295 0.021 0.292 0.020 0.291 0.020 0.289 4 0.025 0.305 0.023 0.299 0.022 0.296 0.022 0.295 0.021 0.293 5 0.026 0.308 0.024 0.302 0.023 0.299 0.023 0.298 0.022 0.296 6 0.027 0.311 0.025 0.305 0.024 0.302 0.023 0.300 0.023 0.299 8 0.029 0.317 0.027 0.310 0.025 0.306 0.025 0.305 0.024 0.303 10 0.030 0.321 0.028 0.314 0.027 0.310 0.026 0.309 0.026 0.307 12.5 0.032 0.326 0.029 0.318 0.028 0.314 0.028 0.312 0.027 0.311 15 0.033 0.330 0.031 0.322 0.029 0.317 0.029 0.316 0.028 0.314 #______________________________________________________________________ # # R = 3 Increasing SFR with time # __________________________ beta _________________________________ # t9 -0.2 -0.4 -0.6 -0.8 -1.0 # [Gyr] (Z, Y) (Z, Y) (Z, Y) (Z, Y) (Z, Y) #______________________________________________________________________ 1 0.016 0.276 0.015 0.276 0.015 0.275 0.015 0.274 0.015 0.274 1.5 0.017 0.281 0.017 0.280 0.016 0.279 0.016 0.278 0.016 0.278 2 0.018 0.284 0.018 0.283 0.017 0.282 0.017 0.281 0.017 0.281 3 0.020 0.288 0.019 0.287 0.019 0.286 0.019 0.286 0.018 0.285 4 0.021 0.292 0.020 0.291 0.020 0.290 0.020 0.289 0.020 0.289 5 0.022 0.295 0.021 0.294 0.021 0.293 0.021 0.292 0.021 0.291 6 0.023 0.298 0.022 0.296 0.022 0.295 0.022 0.295 0.021 0.294 8 0.024 0.302 0.024 0.301 0.023 0.300 0.023 0.299 0.023 0.298 10 0.025 0.306 0.025 0.304 0.024 0.303 0.024 0.302 0.024 0.301 12.5 0.026 0.309 0.026 0.308 0.026 0.307 0.025 0.306 0.025 0.305 15 0.028 0.313 0.027 0.311 0.027 0.310 0.026 0.309 0.026 0.308 #______________________________________________________________________ # ^(a) The values of (Z', Y') for any other enrichment ratio R' can be derived # from the R = 3 case, as Z' = [4/(1+R')]Z and Y' = Y + [(R'-3)/(R'+1)]Z.