Process | HEX: Excitation |
Data type | cross section | uploaded on 2022-11-11 |
Comment | Fit based on equation (7). The cross-section was attribited 10% reltive error based on experience featured in Schweinzer et al. ADNDT 72 239 1999. |
Method | AOCC: Atomic‐orbital close‐coupling |
Frame | Target |
Columns |
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Threshold | 2.018 eV |
Uncertainty | 10 % |
Ref |
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Data | Download (data from fit) |
Fit Function Details |
\[\sigma_{p}^{hex, Na}(E) = 10^{-16} A_1 \Bigg[ \frac{e^{-\frac{A_2}{E}} \big(A_{12} + \ln(A_{11} + A_3E)\big)}{E} + A_4\frac{e^{-A_5E}}{(A_{13}E)^{A_6}} + A_7\frac{e^{-\frac{A_8}{E}}}{1 + (A_9E)^{A_{10}}} \Bigg]\] | ||||||||||||||||||||||||||
Python | def na_hex(E, A1, A2, A3, A4, A5, A6, A7, A8, A9, A10, A11, A12, A13): """ This function calculates proton impact excitation cross sections (in cm2) of Na 3s to 5s. param E: requested electron-impact energy in keV/u type E: float, np.ndarray param Ai: fit coefficient type Ai: float """ sigma = A1*1e-16*((np.exp(-A2/E) * (A12 + np.log(A11 + A3*E)))/E + A4*np.exp(-A5*E)/(A13*E)**A6 + A7*np.exp(-A8/E)/(1 + (A9*E)**A10)) return sigma |
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Fit Coefficients |
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x-range | 0.5 – |