Resolved Specific Ion Data Collections

Temperature Range
108 eV → 1.077 x 105 eV


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  • Spontaneous Emission: Fe+24(i) → Fe+24(j) + hv
  • Electron Impact Excitation: Fe+24(i) + e → Fe+24(j) + e
1s2      (1s) 1S0.0 0.0 cm-1
1s2s     (3s) 3S1.0 53608700.0 cm-1
1s2p     (3p) 3P0.0 53822900.0 cm-1
1s2p     (3p) 3P1.0 53853800.0 cm-1
1s2s     (1s) 1S0.0 53858100.0 cm-1
1s2p     (3p) 3P2.0 53976600.0 cm-1
1s2p     (1p) 1P1.0 54129200.0 cm-1
1s3s     (3s) 3S1.0 63507400.0 cm-1
1s3p     (3p) 3P0.0 63566000.0 cm-1
1s3s     (1s) 1S0.0 63570100.0 cm-1
1s3p     (3p) 3P1.0 63574200.0 cm-1
1s3p     (3p) 3P2.0 63609700.0 cm-1
1s3d     (3d) 3D1.0 63643600.0 cm-1
1s3d     (3d) 3D2.0 63644500.0 cm-1
1s3p     (1p) 1P1.0 63649600.0 cm-1
1s3d     (3d) 3D3.0 63658300.0 cm-1
1s3d     (1d) 1D2.0 63659900.0 cm-1
1s4s     (3s) 3S1.0 66933500.0 cm-1
1s4p     (3p) 3P0.0 66957400.0 cm-1
1s4s     (1s) 1S0.0 66957800.0 cm-1
1s4p     (3p) 3P1.0 66960700.0 cm-1
1s4p     (3p) 3P2.0 66975100.0 cm-1
1s4d     (3d) 3D1.0 66988700.0 cm-1
1s4d     (3d) 3D2.0 66989200.0 cm-1
1s4p     (1p) 1P1.0 66991000.0 cm-1
1s4d     (3d) 3D3.0 66994900.0 cm-1
1s4f     (3f) 3F2.0 66995600.0 cm-1
1s4f     (3f) 3F3.0 66995600.0 cm-1
1s4d     (1d) 1D2.0 66995700.0 cm-1
1s4f     (3f) 3F4.0 66998700.0 cm-1
1s4f     (1f) 1F3.0 66998700.0 cm-1
1s5s     (3s) 3S1.0 68509700.0 cm-1
1s5s     (1s) 1S0.0 68521600.0 cm-1
1s5p     (3p) 3P0.0 68521800.0 cm-1
1s5p     (3p) 3P1.0 68523400.0 cm-1
1s5p     (3p) 3P2.0 68530600.0 cm-1
1s5d     (3d) 3D1.0 68537400.0 cm-1
1s5d     (3d) 3D2.0 68537700.0 cm-1
1s5p     (1p) 1P1.0 68538500.0 cm-1
1s5d     (3d) 3D3.0 68540500.0 cm-1
1s5f     (3f) 3F2.0 68541000.0 cm-1
1s5f     (3f) 3F3.0 68541000.0 cm-1
1s5d     (1d) 1D2.0 68541000.0 cm-1
1s5g     (3g) 3G3.0 68542500.0 cm-1
1s5g     (3g) 3G4.0 68542500.0 cm-1
1s5f     (3f) 3F4.0 68542500.0 cm-1
1s5f     (1f) 1F3.0 68542500.0 cm-1
1s5g     (3g) 3G5.0 68543400.0 cm-1
1s5g     (1g) 1G4.0 68543400.0 cm-1


     Overview: Results are from a 49 level intermediate coupling frame
               transformation R-matrix calculation including resonance
               effects and radiation damping for helium-like iron.

     Reference:  A D Whiteford N R Badnell C P Ballance
		  M G O'Mullane H P Summers A L Thomas
		  J Phys B 34 3179--3191 (2001)
                 A radiation-damped R-matrix approach to the electron-
                 impact excitation of helium-like ions for diagnostic
                 application to fusion and astrophysical plasmas.

     Level energies: The level energies are theoretical, computed by
                     an AUTOSTRUCTURE calculation. They have not been
                     altered to best theoretical values. For precision
                     see referenced paper.

     Transition Probabilities: These are theoretical, computed by
                               AUTOSTRUCTURE. They include electric
                               dipole, electric quadropole and magnetic
                               dipole values.  These data are
                               consistent with the cross-section
                               calculations. For precision see
			        referenced paper. For correct
			        collision-radiative modelling one must
			        include the two photon decay process
			        from 1s2s 1S0 to 1s2 1S0, i.e. the 5-1
			        transition. This can safely be modelled
			        as a radiative rate but no such rate has
				been included.

     Rate coefficients: Detailed attention has been given to the high
                        energy behaviour of the collision strengths as
                        they approach their limiting values, calculated
                        by AUTOSTRUCTURE.  At low energies, the
                        resonance structure was resolved sufficiently
                        to calculate rate coefficients down to 1E6 K.
                        For more details see the referenced paper.
                        Errors of around 20% are expected for the
                        1E6--1E9 temperature range with lesser errors
                        for some transitions (notably the dipoles).

     Author: A D Whiteford              
     Date:   02/07/01                




  • Allan Whiteford
  • Nigel Badnell
  • Connor Ballance
  • Martin O'Mullane
  • Hugh Summers
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