is needed to calculate relative
intensities and is evaluated unless the
IntensityUnits
are set to
Arbitrary for
the
simulation as a whole (or unless the
sum overflows as discussed above). The sum extends over
all
manifolds where
Initial
is true, and by default continues until the highest 8
J values have contributed
< 10
-4 to the overall sum. This behavior can be
controlled by the
AutoQConverge in
individual
manifolds; if this is set to
false then the sum stops at the maximum
J set for the manifold (See
Determining Colours and J ranges for a
discussion of how this is determined). To verify that the partition
function sum has been calculated
correctly after adjusting these settings, the contributions to the sum
from individual manifolds and
J
can be seen by going to the
Energy Level Plot
Window and pressing the "
List" button.
It is possible to skip evaluating the partition
function by setting
IntensityUnits to
Arbitrary,
but note this turns off other contributions to the intensity and can
give misleading relative intensities. (Relative intensities between
isotopologues such as
35Cl
2 and
35Cl
37Cl
will come out wrong, for example.)
The origin used for the energy level values can also
be important in avoiding arithmetic overflows, and some special logic
is used for linear molecules to estimate the energy of the lowest Ω.
All energies are then taken as relative to this in evaluating the sum.
This value is printed out (if non zero) when displaying the details of
the partition function sum.