ENDF/B-VIII.0 Change Log ======================== Author: D.A. Brown, NNDC, BNL Affiliation: NNDC, Brookhaven National Laboratory ENDF/B-VIII.0 Final (2 Feb 2018) -------------------------------- * Update ENDF header and distribution date in all files ENDF/B-VIII.0beta6 (15 Dec 2017) -------------------------------- * d-003_Li_007.endf Corrected scaling of Coulomb-nuclear interference in MF=3. There is no 2.pi factor in eq. (6.20), unlike eq. (4.3) of manual ENDF/B-VIII.0beta5 (29 Sep 2017) -------------------------------- * Add explicit recoil products (MF6 LAW4) for some 2-body reactions in charged particles. Otherwise masses for the recoil product are not present anywhere in the file. Masses came from AME2003. File affected: d-003_Li_007.endf ENDF/B-VIII.0beta4.1 (2 Sep 2017) -------------------------------- * Correct NLIB in header and clean up documentation ENDF/B-VIII.0beta4 (28 Feb 2017) -------------------------------- * No Changes since beta3.1 ENDF/B-VIII.0beta3.1 (18 Jan 2017) ---------------------------------- * The deuteron target was incorrectly marked as unstable. ENDF/B-VIII.0beta3 (1 Nov 2016) -------------------------------- * New evaluation for d+7Li from Navratil and Brown, 2010, from ECPL at LLNL (d-003_Li_007.endf) * d-003_Li_007.endf Tweaking starting energies to above thresholds and fixing outgoing masses for Z=1,2 nuclei (removing electrons) for d+7Li ENDF/B-VIII.0beta2 (19 Aug 2016) -------------------------------- * No changes since beta1 ENDF/B-VIII.0beta1 (25 Apr 2016) -------------------------------- * No changes since beta0 ENDF/B-VIII.0beta0 (8 Apr 2016) ------------------------------- * For d-001_H_003.endf, the ENDF file documentation indicates that MT=51 is d(t,n)4He* and that the 4He* subsequently breaks up into p+t. In MF=6, the outgoing n, p and t are given. However, in MF=3, the breakup flag (LR) is not set, indicating that this reaction is simply d(t,n)4He* and the 4He* deexcites via photon emission. To fix this, I set the breakup flag to LR=1, indicating that the identities and distributions of all outgoing particles are specified in the MF=6 file.