JENDL-5, 2021-12-10 0 0 0 0 1.000000+4 2.000565+1 -1 0 6 11000 1451 1 0.000000+0 0.000000+0 0 0 0 61000 1451 2 0.000000+0 1.00000+11 0 0 6 51000 1451 3 0.000000+0 0.000000+0 0 0 71 21000 1451 4 10-Ne- 0 NDS,IAEA Eval-Dec17 D.E.Cullen 1000 1451 5 NDS-IAEA-224 DIST-FEB18 1000 1451 6 ----JENDL-5 MATERIAL 1000 1000 1451 7 -----ATOMIC RELAXATION DATA 1000 1451 8 ------ENDF-6 FORMAT 1000 1451 9 1000 1451 10 ==================================================================1000 1451 11 This file is imported from ENDF-B/VIII.0 (JENDL5). 1000 1451 12 1000 1451 13 ==================================================================1000 1451 14 The Livermore Evaluated Atomic Data Library (EADL) in the 1000 1451 15 ENDF-6 Format. Translated from the Livermore ENDL format 1000 1451 16 to the ENDF-6 Format. 1000 1451 17 ==================================================================1000 1451 18 Contents 1000 1451 19 ==================================================================1000 1451 20 MF/MT Description 1000 1451 21 ==================================================================1000 1451 22 28/533 Atomic Relaxation Data for Electrons and Photons 1000 1451 23 ==================================================================1000 1451 24 Warning 1000 1451 25 ==================================================================1000 1451 26 MF/MT combinations used to define ALL electron interaction data 1000 1451 27 are newly defined MF/MT numbers for ENDF/B-VI that did not exist1000 1451 28 in earlier versions of ENDF/B. 1000 1451 29 ==================================================================1000 1451 30 Definition of Data 1000 1451 31 ==================================================================1000 1451 32 Atomic Relaxation Data for Electrons and Photons 1000 1451 33 ==================================================================1000 1451 34 1) An atom can be ionized by a photon or an electron interaction. 1000 1451 35 2) The atomic relaxation data included here describes how a 1000 1451 36 singly ionized atom returns to neutrality, by emitting photons 1000 1451 37 (x-rays) and/or electrons (Auger, Coster-Kronig). 1000 1451 38 3) Data is given to define the transition probabilities between 1000 1451 39 subshells for radiative (x-ray emission) and non-radiative 1000 1451 40 (Auger, Coster-Kronig) transitions. 1000 1451 41 4) The complete spectrum of emitted photons and electrons can be 1000 1451 42 calculated using the data included here, e.g., see ref. 2, 1000 1451 43 below, for am example of a computer code that analytically 1000 1451 44 calculates these spectra. 1000 1451 45 ==================================================================1000 1451 46 References 1000 1451 47 ==================================================================1000 1451 48 1) S.T. Perkins, D.E. Cullen, etal., "Tables and Graphs of Atomic 1000 1451 49 Subshell and Relaxation Data Derived from the LLNL Evaluated 1000 1451 50 Atomic Data Library (EADL), Z = 1 - 100", UCRL-50400, Vol. 30, 1000 1451 51 Lawrence Livermore National Laboratory (1991). 1000 1451 52 2) D.E. Cullen "Program RELAX: A Code Designed to Calculate X-Ray 1000 1451 53 and Electron Emission Spectra as Singly Charged Atoms Relax 1000 1451 54 Back to Neutrality", UCRL-ID-110438, Lawrence Livermore 1000 1451 55 National Laboratory (1992). 1000 1451 56 3) D.E. Cullen "A Survey of Atomic Binding Energies for use 1000 1451 57 in EPICS2017" ,IAEA-NDS-224, (2017), Nuclear Data Section, 1000 1451 58 IAEA, Vienna, Austria 1000 1451 59 1000 1451 60 These are the primary references to the contents of this library1000 1451 61 and they contain a complete list of references to the sources 1000 1451 62 of data used in this library, methods of evaluation, accuracy 1000 1451 63 of the data, etc. 1000 1451 64 ==================================================================1000 1451 65 History 1000 1451 66 ==================================================================1000 1451 67 (1) November, 1991 - Initial release in the ENDL format. 1000 1451 68 (2) November, 2001 - Initial release in the ENDF-6 format. 1000 1451 69 (3) September,2014 - Insure Standard C, C++, FORTRAN Format 1000 1451 70 (4) September,2014 - Updated based on recently publshed data 1000 1451 71 (5) September,2017 - New Binding Energies (see: ref.3) 1000 1451 72 Same Transition Probabilities 1000 1451 73 ==================================================================1000 1451 74 **************** Program DICTIN (VERSION 2017-1) ****************1000 1451 75 1 451 77 01000 1451 76 28 533 17 01000 1451 77 1000 1 0 0 1000 0 0 0 1.000000+4 2.000565+1 0 0 4 0100028533 1 1.000000+0 0.000000+0 0 0 54 8100028533 2 8.701000+2 2.000000+0 0.000000+0 0.000000+0 0.000000+0 0.000000+0100028533 3 3.000000+0 0.000000+0 8.381000+2 4.643290-3 0.000000+0 0.000000+0100028533 4 4.000000+0 0.000000+0 8.382200+2 9.229670-3 0.000000+0 0.000000+0100028533 5 2.000000+0 2.000000+0 7.717200+2 9.305840-2 0.000000+0 0.000000+0100028533 6 2.000000+0 3.000000+0 7.948700+2 9.210240-2 0.000000+0 0.000000+0100028533 7 2.000000+0 4.000000+0 7.949900+2 1.815780-1 0.000000+0 0.000000+0100028533 8 3.000000+0 3.000000+0 8.180200+2 1.456810-2 0.000000+0 0.000000+0100028533 9 3.000000+0 4.000000+0 8.181400+2 3.851310-1 0.000000+0 0.000000+0100028533 10 4.000000+0 4.000000+0 8.182600+2 2.196890-1 0.000000+0 0.000000+0100028533 11 2.000000+0 0.000000+0 0 0 6 0100028533 12 4.847000+1 2.000000+0 0.000000+0 0.000000+0 0.000000+0 0.000000+0100028533 13 3.000000+0 0.000000+0 0 0 6 0100028533 14 2.166000+1 2.000000+0 0.000000+0 0.000000+0 0.000000+0 0.000000+0100028533 15 4.000000+0 0.000000+0 0 0 6 0100028533 16 2.166000+1 4.000000+0 0.000000+0 0.000000+0 0.000000+0 0.000000+0100028533 17 100028 0 0 1000 0 0 0 0 0 0 0 -1 0 0 0