Set the abundance table used in the plasma emission and photoelectric absorption models.
Syntax: abund <option>
where <option> is:
angr, from Anders E. & Grevesse N. (1989, Geochimica et Cosmochimica Acta 53, 197)
aspl, from Asplund M., Grevesse N., Sauval A.J. & Scott P. (2009, ARAA, 47, 481)
feld, from Feldman U.(1992, Physica Scripta 46, 202 except for elements not listed which are given grsa abundances),
aneb, from Anders E. & Ebihara (1982, Geochimica et Cosmochimica Acta 46, 2363),
grsa from Grevesse, N. & Sauval, A.J. (1998, Space Science Reviews 85, 161)
wilm from Wilms, Allen & McCray (2000, ApJ 542, 914 except for elements not listed which are given zero abundance)
lodd, from Lodders, K (2003, ApJ 591, 1220)
file filename, where filename is an ASCII file containing 30 lines with one number on each line. All abundances are number relative to H.
The tables are:
Element |
angr |
aspl |
feld |
aneb |
grsa |
wilm |
lodd |
H |
1.00e+00 |
1.00e+00 |
1.00e+00 |
1.00e+00 |
1.00e+00 |
1.00e+00 |
1.00e+00 |
He |
9.77e-02 |
8.51e-02 |
9.77e-02 |
8.01e-02 |
8.51e-02 |
9.77e-02 |
7.92e-02 |
Li |
1.45e-11 |
1.12e-11 |
1.26e-11 |
2.19e-09 |
1.26e-11 |
0.00 |
1.90e-09 |
Be |
1.41e-11 |
2.40e-11 |
2.51e-11 |
2.87e-11 |
2.51e-11 |
0.00 |
2.57e-11 |
B |
3.98e-10 |
5.01e-10 |
3.55e-10 |
8.82e-10 |
3.55e-10 |
0.00 |
6.03e-10 |
C |
3.63e-04 |
2.69e-04 |
3.98e-04 |
4.45e-04 |
3.31e-04 |
2.40e-04 |
2.45e-04 |
N |
1.12e-04 |
6.76e-05 |
1.00e-04 |
9.12e-05 |
8.32e-05 |
7.59e-05 |
6.76e-05 |
O |
8.51e-04 |
4.90e-04 |
8.51e-04 |
7.39e-04 |
6.76e-04 |
4.90e-04 |
4.90e-04 |
F |
3.63e-08 |
3.63e-08 |
3.63e-08 |
3.10e-08 |
3.63e-08 |
0.00 |
2.88e-08 |
Ne |
1.23e-04 |
8.51e-05 |
1.29e-04 |
1.38e-04 |
1.20e-04 |
8.71e-05 |
7.41e-05 |
Na |
2.14e-06 |
1.74e-06 |
2.14e-06 |
2.10e-06 |
2.14e-06 |
1.45e-06 |
1.99e-06 |
Mg |
3.80e-05 |
3.98e-05 |
3.80e-05 |
3.95e-05 |
3.80e-05 |
2.51e-05 |
3.55e-05 |
Al |
2.95e-06 |
2.82e-06 |
2.95e-06 |
3.12e-06 |
2.95e-06 |
2.14e-06 |
2.88e-06 |
Si |
3.55e-05 |
3.24e-05 |
3.55e-05 |
3.68e-05 |
3.35e-05 |
1.86e-05 |
3.47e-05 |
P |
2.82e-07 |
2.57e-07 |
2.82e-07 |
3.82e-07 |
2.82e-07 |
2.63e-07 |
2.88e-07 |
S |
1.62e-05 |
1.32e-05 |
1.62e-05 |
1.89e-05 |
2.14e-05 |
1.23e-05 |
1.55e-05 |
Cl |
1.88e-07 |
3.16e-07 |
1.88e-07 |
1.93e-07 |
3.16e-07 |
1.32e-07 |
1.82e-07 |
Ar |
3.63e-06 |
2.51e-06 |
4.47e-06 |
3.82e-06 |
2.51e-06 |
2.57e-06 |
3.55e-06 |
K |
1.32e-07 |
1.07e-07 |
1.32e-07 |
1.39e-07 |
1.32e-07 |
0.00 |
1.29e-07 |
Ca |
2.29e-06 |
2.19e-06 |
2.29e-06 |
2.25e-06 |
2.29e-06 |
1.58e-06 |
2.19e-06 |
Sc |
1.26e-09 |
1.41e-09 |
1.48e-09 |
1.24e-09 |
1.48e-09 |
0.00 |
1.17e-09 |
Ti |
9.77e-08 |
8.91e-08 |
1.05e-07 |
8.82e-08 |
1.05e-07 |
6.46e-08 |
8.32e-08 |
V |
1.00e-08 |
8.51e-09 |
1.00e-08 |
1.08e-08 |
1.00e-08 |
0.00 |
1.00e-08 |
Cr |
4.84e-07 |
4.37e-07 |
4.84e-07 |
4.93e-07 |
4.68e-07 |
3.24e-07 |
4.47e-07 |
Mn |
2.45e-07 |
2.69e-07 |
2.45e-07 |
3.50e-07 |
2.45e-07 |
2.19e-07 |
3.16e-07 |
Fe |
4.68e-05 |
3.16e-05 |
3.24e-05 |
3.31e-05 |
3.16e-05 |
2.69e-05 |
2.95e-05 |
Co |
8.60e-08 |
9.77e-08 |
8.60e-08 |
8.27e-08 |
8.32e-08 |
8.32e-08 |
8.13e-08 |
Ni |
1.78e-06 |
1.66e-06 |
1.78e-06 |
1.81e-06 |
1.78e-06 |
1.12e-06 |
1.66e-06 |
Cu |
1.62e-08 |
1.55e-08 |
1.62e-08 |
1.89e-08 |
1.62e-08 |
0.00 |
1.82e-08 |
Zn |
3.98e-08 |
3.63e-08 |
3.98e-08 |
4.63e-08 |
3.98e-08 |
0.00 |
4.27e-08 |