- Calculation of Ce-binding energies by analysis of photodetachment partial cross
- Ab Initio Electric Dipole f values for Fe II (3d6 4p J = 9/2 Transitions
- Ab Initio Energy Levels, Oscillator Strengths, and Lande g Values for J = 0, 1 States of Zr III and Nb IV
- The 1s photoabsorption transitions in Br I and Br II Lin Pan and Donald R. Beck
- Three Long Lived Excited States of Tm-Steven M. O'Malley and Donald R. Beck
- Calculations of Nd-binding energies and photodetachment partial cross sections
- Valence calculations of lanthanide anion binding energies: 6p attachments to 4fn Steven M. O'Malley and Donald R. Beck
- X-ray absorption near-edge structure of laser-dressed neon Hari R. Varma,1
- Relativistic configuration interaction calculations of lifetimes of Si-
- Removal or Excitation of a 1s Electron in Kr II and Lin Pan, Donald R. Beck and Steven M. O'Malley
- Lifetimes and branching ratios of excited states in La-Steven M. O'Malley and Donald R. Beck
- Improved RCI techniques for atomic 4fn energies: application to Sm I 4f6
- Candidates for laser cooling of atomic anions: La-Lin Pan and Donald R. Beck
- Improved RCI techniques for Atomic 4fn Energies and Polarizabilities
- Calculations of Hf -electron affinity and
- Valence calculations of actinide anion binding energies: all bound 7p and 7s attachments
- Valence calculations of lanthanide anion binding energies: 6p and 6s attachments to (5d + 6s + 6p)3
- Improved RCI Techniques for Treating 4fn and Ions: Application to Gd IV Energies
- Relativistic Configuration Interaction Fe III 3d6 4p J=3,4,5 f-values
- Ab Initio Electric Dipole f Values for Fe II (3d+4s)7 J=9/2(3d+4s)6
- Mo VI J=3/2, 5/2 Energy Levels, Oscillator Strengths and Lande g-values
- Autodetachment lifetime calculations of long lived metastable states of Ba-
- Mo V J = 0, 1 Energy Levels, Oscillator Strengths, and Lande Lin Pan and Donald R. Beck
- Lifetimes of Tc I (4d+5s)6 By: S. M. O'Malley and D. R. Beck
- !#"%$&!'%()021 3354&6879@4&6%A!BDC0FEG4IHQPRTS U !V"%W!X"%
- Experimental and Theoretical Studies of Bound and Quasi-bound States of Ce-C. W. Walter,