Table 2: Chemical content of the ejecta of the NACRE models.
$M_{\rm ZAMS}$ Ya $\log~(\epsilon(^7{\rm Li}))^b$ [12C]c [14N] [16O] (C+N+O)d [23Na] [24Mg] [25Mg] [26Mg] 25Mg/24Mg 26Mg/24Mg
3.0 0.26 2.41 -0.10 1.52 0.01 3.24 1.21 0.03 0.22 0.56 0.20 0.50
3.5 0.27 2.20 -0.44 1.37 -0.19 2.18 0.75 -0.01 0.37 0.40 0.31 0.39
4.0 0.29 2.06 -0.56 1.28 -0.39 1.70 0.46 -0.28 0.60 0.41 0.98 0.73
4.5 0.32 1.96 -0.60 1.24 -0.49 1.51 0.02 -0.66 0.60 0.38 2.37 1.63
5.0 0.32 1.91 -0.70 1.13 -0.61 1.17 -0.16 -0.95 0.50 0.35 3.68 3.00
5.5 0.32 1.94 -0.80 1.04 -0.59 0.99 -0.37 -1.13 0.53 0.31 6.13 4.18
6.0 0.32 1.91 -0.82 1.01 -0.54 0.96 -0.43 -1.23 0.60 0.28 8.96 4.96
6.5 0.32 2.25 -0.81 1.01 -0.46 1.00 -0.37 -1.27 0.66 0.25 11.34 5.02
a Helium mass fraction.
b $\log~(\epsilon(^7{\rm Li}))=\log~(^7{\rm Li/H})+12.00.$
c $[A]=\log~(X(A)_{\rm ej})-\log~(X(A)_{\rm in})$.
d Ratio between the average (C+N+O) abundance of the ejecta and the initial (C+N+O) value.

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