Spherical Transition Moments for Symmetric Tops
This must be used for multiphoton or Raman
transitions, and is also appropriate for single photon
transitions
classified as parallel or perpendicular, as noted below.
The "Strength" number is the value of the vibronic only
matrix element:
T(k,q)
= <stateA, K+q| μ | stateB, K>
where k is the
"Rank" and q the
"Component" setting, normally
chosen to be >= 0. The corresponding matrix element:
T(k,-q)
= <stateA, K-q| μ | stateB, K>
is then computed by
symmetry. The
order of the states (which can be significant in cases
involving
multiple transition moments) is as displayed in the
constants window.
Settings
| Rank |
Rank of transition: 1 for a normal electric dipole
transition; see here for
multiphoton or Raman
transitions |
| Component |
Projection quantum number of transition moment.
The default
is auto,
which for simple
cases implies taking the only value of the component
which gives an
allowed transitions. In the standard one photon case
it will be 0 for a
parallel transition and 1 for a perpendicular
transition. For more
complicated cases auto
will not work and a specific component must be
taken.
|
Parameters
| Strength |
Transition (dipole)
moment. For one photon transitions this has units of
Debye. Note that
the relative intensity is proportional to the square
of this value. |
|
Molecule Types Symmetric Tops Transition Moments