Skip to Content Skip to Search Skip to Utility Navigation Skip to Top Navigation
Los Alamos National Laboratory

Los Alamos National Laboratory

Delivering science and technology to protect our nation and promote world stability

Modeling & Simulation publications

Research into alternative forms of energy, especially energy security, is one of the major national security imperatives of this century.

Get Expertise  

  • David Harradine
  • Physical Chemistry and Applied Spectroscopy
  • Email
The inherent knowledge of transformation has beguiled sorcerers and scientists alike.
D.A. Horner, F. Lambert, J.D. Kress, and L.A. Collins, “Transport properties of lithium hydride from quantum molecular dynamics and orbital-free molecular dynamics,” Physical Review B - Condensed Matter and Materials Physics 80(2) (2009).
J.D. Kress, D.A. Horner, and L.A. Collins, “Mixing rules for optical and transport properties of warm, dense matter,” AIP Conference Proceedings 1195, 931–934 (2009).
B. Jeon, M. Foster, J. Colgan, G. Csanak, J.D. Kress, L.A. Collins, and N. Grønbech-Jensen, “Energy relaxation rates in dense hydrogen plasmas,” Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 78(3) (2008).
Michael R. Salazar, Joel D. Kress, J. Michael Lightfoot, Bobby G. Russel, Wayne A. Rodin, and Lorelei Woods, “Experimental study of the oxidative degradation of PBX 9501 and its components,” Propellants, Explosives, Pyrotechnics 33(3), 182–201 (2008).
Byoungseon Jeon, Joel D. Kress, Lee A. Collins, and Niels Grønbech-Jensen, “Parallel TREE code for two-component ultracold plasma analysis,” Computer Physics Communications 178(4), 272–279 (2008).
D.A. Horner, J.D. Kress, and L.A. Collins, “Quantum molecular dynamics simulations of warm dense lithium hydride: Examination of mixing rules,” Physical Review B - Condensed Matter and Materials Physics 77(6) (2008).
M.W. Schraad, “The influence of dispersity in geometric structure on the stability of cellular solids,” Mechanics of Materials 39(2), 183–198 (2007).
Kirk E. Wells, Robin A. Weatherhead, Francis N. Murigi, Gary S. Nichol, Michael D. Carducci, Hugh D. Selby, and Eugene A. Mash, “Organic crystal engineering with 1,4-piperazine-2,5-diones. 8. Synthesis, crystal packing, and thermochemistry of piperazinediones derived from 2-amino-4,7-dialkoxyindan-2-carboxylic acids,” Crystal Growth and Design 12(10), 5056–5068 (2012).
A.L. Keksis, M.B. Chadwick, H.D. Selby, M.R. Mac Innes, D.W. Barr, R.A. Meade, C.J. Burns, and T.C. Wallstrom, “Los Alamos National Laboratory fission basis,” Journal of ASTM International 9(3) (2012).
A.L. Keksis, M.B. Chadwick, H.D. Selby, M.R. Mac Innes, D.W. Barr, R.A. Meade, C.J. Burns, and T.C. Wallstrom, “Los Alamos National Laboratory Fission Basis,” ASTM Special Technical Publication 1550 STP, 371–377 (2012).
H.D. Selby, M.R. Mac Innes, D.W. Barr, A.L. Keksis, R.A. Meade, C.J. Burns, M.B. Chadwick, and T.C. Wallstrom, “Fission Product Data Measured at Los Alamos for Fission Spectrum and Thermal Neutrons on 239Pu, 235U, 238U,” Nuclear Data Sheets 111(12), 2891–2922 (2010).
M.B. Chadwick, T. Kawano, D.W. Barr, M.R. Mac Innes, A.C. Kahler, T. Graves, H. Selby, C.J. Burns, W.C. Inkret, and A.L. Keksis, et al., “Fission Product Yields from Fission Spectrum n+ 239Pu for ENDF/B-VII.1,” Nuclear Data Sheets 111(12), 2923–2964 (2010).


Visit Blogger Join Us on Facebook Follow Us on Twitter See our Flickr Photos Watch Our YouTube Videos Find Us on LinkedIn Find Us on iTunesFind Us on GooglePlayFind Us on Instagram