| H+ + H0(n=3) → H0 + H+ | total |
| H+ + H0(n=3) → H0(n=1) + H+ | n-resolved |
| H+ + H0(n=3) → H0(1s) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(n=2) + H+ | n-resolved |
| H+ + H0(n=3) → H0(2s) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(2p) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(n=3) + H+ | n-resolved |
| H+ + H0(n=3) → H0(3s) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(3p) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(3d) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(n=4) + H+ | n-resolved |
| H+ + H0(n=3) → H0(4s) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(4p) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(4d) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(4f) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(n=5) + H+ | n-resolved |
| H+ + H0(n=3) → H0(5s) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(5p) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(5d) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(5f) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(5g) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(n=6) + H+ | n-resolved |
| H+ + H0(n=3) → H0(6s) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(6p) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(6d) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(6f) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(6g) + H+ | nl-resolved |
| H+ + H0(n=3) → H0(6h) + H+ | nl-resolved |
------------------------------------------------------------------------------------------- DATA REFORMATTED TO NEW ADF01 FORMAT. INPUT DATA FILE : JETSHP.CHEXDATA.DATA(H1#HEXC1) SUB-BLOCK USED : 3 SUB-BLOCK TITLE : COMPOSITE FOR CAPTURE FROM N=3 N'**2*E =1.0KEV/AMU - 700 KEV/AMU H+1 COMMENT RECORDS FROM INPUT DATA FILE ARE APPENDED BELOW. ------------------------------------------------------------------------------------------- ====================================================================== H(N>1) + H(1) --> H(+) + H -------------------------- INFORMATION #1989 RESTRUCTURED DATA ----------- THE FOLLOWING OPTIONS ARE AVAILABLE SELECTED BY IBLOCK IBLOCK=3 -------- ENERGY = 1.0D3 EV/AMU - 7.0D5 EV/AMU (N'**2*E UNITS) N = 1 - 6 APPROX = COMPOSITE REFERENCE = SIMPLY ARRANGED TO GIVE MODEST PEAKING (USED BELOW N'**2 *E=1.0D5) EICHLER (1981) PHYS. REV. A. 23, 498. (USED ABOVE N'**2 *E=1.0D5) IT IS ASSUMED THAT FRACTIONS ARE THE SAME FROM 3S,3P, AND 3D. REMARKS CAPTURE FORM H(N=3) ONLY. COMPOSITE DATA BASED ON ABOVE REFERENCES. NO DATA AVAILABLE ON HIGH N EXTRAPOLATION OR L-SUBSHELL SPLITTING. A CHOICE OF ALPHA IS THE SAME AS THAT OF BE{+4} CAPTURE FROM H(1S). THE SUMMED XSECT. FROM 6 TO INFINITY HAS BEEN USED TO COMPUTE THE N=6 XSECT BASED ON EXTRAPOLATION FROM N=6 WITH THE PREFERRED ALPHA. LFORMA, XLCUTA, PL2A AND PL3A THESE ARE THE SAME AS THE VALUES FOR HE{+2}+H(1S) BUT WITH XLCUTA INCREASED TO 2.0 H.P. SUMMERS 20 FEB 1990 ======================================================================= L-SPLITTING IS RECONSTITUTED FROM THE JET N-SHELL RESOLUTION DATA BLOCK USING ITS L-SHELL FORM PARAMETERS. THE DATA SET THUS EXACTLY MATCHES THE JET DATA SET IN APPLICATION. NOTE THE L-SHELL FORM PARAMETERS ARE OPTIMIMISED AROUND THE N-SHELLS RESPONSIBLE FOR VISIBLE LINE CHARGE EXCHANGE SPECTROSCOPY EMISSION. H.P. SUMMERS 28 JULY 1995 ----------------------------------------------------------------------- --------------------------------------------------------------------------------- ---------------------------------------------------------------------------------