Science Documentation

In this documentation we adopt the notation where a lower-case \(m\) implicitly represents the mass ratio of the star to the sun, a unitless mass measurement. When relevant, we refer to the mass of a star with units with an upper-case \(M\). In a similar fashion, \(l\) and \(u\) refer to the lower and upper mass limits of star formation, respectively.

All nucleosynthetic yields are in fractional units; that is, they quantify the mass fraction of stellar material’s initial mass that is processed into a given element and subsequently ejected to the ISM. Nucleosynthetic products that end up locked in stellar remnants should not be taken into account in these models. These values are denoted with a lower-case \(y\) with test subscripts and superscripts denoting the element and the enrichment channel.

The metallicity by mass \(Z\) refers always to the metallicity by mass:

\[Z \equiv \frac{M_x}{M}\]

Where \(M_x\) refers to the mass of some element \(x\) and \(M\) to the mass of either the interstellar gas or a star.

The logarithmic abundance measurement [X/H] is defined by:

\[[X/H] \equiv \log_{10}\left(\frac{Z_x}{Z_x^\odot}\right)\]

and logarithmic abundance ratios [X/Y]:

\[[X/Y] = [X/H] - [Y/H] = \log_{10}\left(\frac{Z_x}{Z_x^\odot}\right) - \log_{10}\left(\frac{Z_y}{Z_y^\odot}\right)\]

Here and hereafter the symbols \(\odot\) and \(\tau\) refer to the sun and a timescale, respectively.