| Process | EEX: Excitation |
| Data type | cross section | uploaded on 2022-11-11 |
| Comment | Fit based on equation (1).The cross-section was attribited 10% reltive error based on experience featured in Schweinzer et al. ADNDT 72 239 1999. |
| Method | CCC: Convergent close-coupling |
| Columns |
|
| Threshold | 1.517 eV |
| Uncertainty | 10 % |
| Ref |
|
| Data | Download (data from fit) |
| Fit Function Details |
\[\sigma_{e}^{exc, Na} (E) = \frac{10^{-16}A_7}{E} \Bigg[\frac{E - \Delta E}{E} \Bigg]^{A_6} \Bigg[A_5 \ln\bigg( \frac{E}{\Delta E} \bigg) + \sum_{j=1}^{4} A_j \bigg( \frac{E}{\Delta E} \bigg) ^{-(j-1)} \Bigg]\] | ||||||||||||||||
| Python | def na_eex(E, A1, A2, A3, A4, A5, A6, A7, I):
"""
This function calculates electron impact excitation cross sections (in cm2) of
Na from [3s ... 4f] to [3p ... 5s]
param E: requested electron-impact energy in eV
type E: float, np.ndarray
param Ai: fit coefficient
type Ai: float
param I: ionization energy in eV
type I: float
"""
sigma = (A7*1e-16)/E * ((E-I)/E)**A6 * (A1/(E/I)**0 + A2/(E/I)**1 +
A3/(E/I)**2 + A4/(E/I)**3 + A5*np.log(E/I))
return sigma |
||||||||||||||||
| Fit Coefficients |
|
||||||||||||||||
| x-range | 1.51705 – |