12/6/2020: These files are called "moller16" because they're
from Moller et al. ADNDT 109 (2016) 1, but referred to in
that article as "FRDM(2012)". The table columns are:

Table 1 Calculated Nuclear Ground-State Masses and Deformations,
Compared to Experimental Masses Where Available

Z Proton number. The mass table is ordered by increasing proton
number. The corresponding chemical symbol of each named element is
given in parentheses.

N Neutron number.

A Mass Number.

ε2 Calculated ground-state quadrupole deformation in the Nilsson
perturbed-spheroid parameterization.

ε3 Calculated ground-state octupole deformation in the Nilsson
perturbed-spheroid parameterization.

ε4 Calculated ground-state hexadecapole deformation in the Nilsson
perturbed-spheroid parameterization.

ε6 Calculated ground-state hexacontatetrapole deformation in the
Nilsson perturbed-spheroid parameterization.

β2 Calculated quadrupole deformation of the nuclear ground-state
expressed in a spherical-harmonics expansion. The exact definition is
given by Eq. (38).

β3 Calculated octupole deformation of the nuclear ground-state
expressed in a spherical-harmonics expansion.

β4 Calculated hexadecapole deformation of the nuclear ground-state
expressed in a spherical-harmonics expansion.

β6 Calculated hexacontatetrapole deformation of the nuclear
ground-state expressed in a spherical-harmonics expansion.

Es+p Calculated ground-state shell-plus-pairing correction. For a
specific deformation this number is independent of the macroscopic
model and depends only on the single-particle model.

Emic Calculated ground-state microscopic energy, given by the
difference between the calculated ground-state atomic mass excess and
the spherical macroscopic energy calculated in our preferred mass
model, the FRDM (2012).

Ebind Calculated ground-state binding energy, calculated in our
preferred mass model, the FRDM (2012).

Mth Calculated ground-state atomic mass excess, in our preferred mass
model, the FRDM (2012).

Mexp Experimental ground-state atomic mass excess in the AME2003
evaluation (Nucl. Phys. A 729 (2003) 337).

σexp Experimental error associated with the ground-state atomic mass
excess in the AME2003 evaluation (Nucl. Phys. A 729 (2003) 337).

EFLmic Calculated ground-state microscopic energy, given by the
difference between the calculated ground-state atomic mass excess and
the spherical macroscopic energy calculated in the FRLDM (2012).

MFL th Calculated ground-state atomic mass excess, in the FRLDM (2012).