Theoretical study of electron-impact excitation of H(1s) into the states using a two-dimensionalR-matrix propagator

Abstract: Electron-impact excitation of the ground state of hydrogen into the states is studied by propagating the R-matrix in the two radial dimensions. Integral cross sections and resonance parameters are presented for collision energies from 0.75 Ryd (the n = 2 threshold) up to 0.96 Ryd (the n = 5 threshold). Below the n = 3 threshold, there is very good agreement with results from other methods and with experimental data. Between the n = 3 and n = 4 thresholds, integral cross sections are in better agreement with t… Show more

“…Apart from Aggarwal et al (1991), these calculations have focused on transitions between the ground state and terms up to the n = 3 shell. An exception is Dunseath et al (1999) who have employed a novel two-dimensional R-matrix propagator technique to study resonance widths in a small energy band below 0.96 Ryd. However, in general, excitation data involving the n = 3, 4, 5 and 6 shells are sparse in energy or incomplete in transitions.…”

AnR-matrix with pseudostates approach to the electron-impact excitation of H I for diagnostic applications in fusion plasmas

“…Apart from Aggarwal et al (1991), these calculations have focused on transitions between the ground state and terms up to the n = 3 shell. An exception is Dunseath et al (1999) who have employed a novel two-dimensional R-matrix propagator technique to study resonance widths in a small energy band below 0.96 Ryd. However, in general, excitation data involving the n = 3, 4, 5 and 6 shells are sparse in energy or incomplete in transitions.…”

AnR-matrix with pseudostates approach to the electron-impact excitation of H I for diagnostic applications in fusion plasmas

“…In our previous work (Dunseath et al 1999), by fitting the eigenphase sum we found the 1 P o shape resonance at 0.751 34 Ryd with a width of 1.55 × 10 −3 Ryd. By fitting the lifetime, we now find the resonance at 0.751 22 Ryd, lying between the two experimental values, with a width of 1.41×10 −3 Ryd, which is slightly narrower than that deduced from the measurements.…”

“…Details of our method of propagating the R-matrix in two dimensions together with the parameters used in the calculation have been given in a previous paper (Dunseath et al 1999). Briefly, the R-matrix (the inverse of the logarithmic derivative matrix) is propagated in two dimensions in steps of 10 a 0 out to a distance of 100 a 0 , beyond which a one-dimensional propagation method (Light and Walker 1976) is used to obtain the R-matrix at some large distance r asy .…”

“…As we have already noted, this is the case just above threshold: the rapidly decreasing phase can greatly distort or even destroy any resonance structure, rendering it extremely difficult to ascertain whether a resonance is actually there or not. In the case of the 1 P o shape resonance just above the n = 2 threshold, a satisfactory fit can be made by adding a term proportional to (E − E th ) −1 (where E th is the threshold energy) to the background phase (Callaway 1982, Dunseath et al 1999. Above higher thresholds, however, this still does not allow a reliable fit to be made.…”

“…In a recent paper (Dunseath et al 1999) we used the method of R-matrix propagation in two dimensions (Dunseath et al 1996) to study electron-hydrogen scattering at collision energies up to 0.96 Ryd (the n = 5 threshold). In particular, we presented an extensive set of energies and widths for the series of Feshbach resonances converging to the n = 3, 4 and 5 thresholds.…”

Shape resonances in electron-hydrogen scattering

Differential and integrated cross sections for excitation to the3s,3p, and3dstates of atomi