This fitting function models the dynamics structure factor of a particle undergoing discrete jumps on N-sites evenly distributed in a circle. The particle can only jump to neighboring sites. This is the most common type of discrete rotational diffusion in a circle.
Markov model for jumps between neighboring sites:
The Decay fitting parameter is the inverse of the transition rate. This, along with the circle radius , conform the two fundamental fitting parameters of the structure factor :
The transition rate, expressed in units of energy is , with h = 4.135665616 meV ps.
This function is a composite of ElasticDiffRotDiscreteCircle and InelasticDiffRotDiscreteCircle.
When using DiffRotDiscreteCircle, the value of Q can be obtained either though the Q attribute or can be calculated from the input workspace using the WorkspaceIndex property. The value calculated using the workspace is used whenever the Q attribute is empty.
Methyl Rotations can be modelled setting N=3. In this case, the inelastic part reduces to a single Lorentzian:
If, alternatively, one models these dynamics using the Lorentzian function provided in Mantid:
Then:
Name | Type | Default | Description |
---|---|---|---|
N | |||
NumDeriv | |||
Q |
(integer, default=3) number of sites - (boolean, default=true) carry out numerical derivative - (double, default=0.5) Momentum transfer .. properties:
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