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PGOPHER
will simulate the vibrational structure associated with an electronic
state or transition, including anharmonic and Renner-Teller effects and
vibronic mixing. Ionization can also be simulated, providing spin
effects can be ignored. Currently C1, Ci,
C2, Cs,
D2, C2v, C2h, D2h,
Cinfinityv and Dinfinityh symmetry are
explicitly
supported. Note that when using this mode, rotational
structure associated with the transition is not simulated. See the
making a data file and the worked examples for an introduction.
A harmonic oscillator basis set is used of the form:
|v1l1> |v2l2>…|…ΛΣ…>
where vi
are the standard vibrational quantum numbers and li the corresponding
vibrational angular momenta (only required for degenerate modes). Λ and
Σ are the electronic quantum numbers, normally only required for
linear molecules. Anharmonic, Renner-Teller and other vibronic
interactions are accounted for by off-diagonal matrix elements
(expressed as perturbations
in the language of PGOPHER)
and a
matrix diagonalisation if required.
To calculate the intensities of the
vibrational transitions associated with an electronic transition
multidimensional Franck-Condon factors are calculated. As the
vibrational basis used for each state is different (the basis is
determined by the normal modes) the normal modes in the two states (Q, Q')
must be related by:
Q' = JQ + K
where K
represents change in equilibrium geometry and J accounts for mixing between modes
(The Dushinsky effect). J and K can be input directly, or
calculated from the l
matrices from the two states.