L
Liam Stanton
Researcher at San Jose State University
Publications - 30
Citations - 741
Liam Stanton is an academic researcher from San Jose State University. The author has contributed to research in topics: Yukawa potential & High Energy Density Matter. The author has an hindex of 13, co-authored 26 publications receiving 546 citations. Previous affiliations of Liam Stanton include Northwestern University & Lawrence Livermore National Laboratory.
Papers
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Journal ArticleDOI
Ionic transport in high-energy-density matter.
Liam Stanton,Michael S. Murillo +1 more
TL;DR: In this article, a simplified Boltzmann approach for dense plasmas has been developed, which yields accurate fits for all of the relevant cross sections and collision integrals, and is validated with molecular-dynamics simulations for self-diffusion, interdiffusion and viscosity.
Journal ArticleDOI
Unified description of linear screening in dense plasmas
Liam Stanton,Michael S. Murillo +1 more
TL;DR: A new analytic pair potential is found for the ion-ion interaction that incorporates moderate electronic coupling, quantum degeneracy, gradient corrections to the free energy, and finite temperatures, and can be used in large-scale "classical" molecular dynamics simulations as well as in simpler theoretical models with no additional computational complexity.
Journal ArticleDOI
Large-scale molecular dynamics simulations of dense plasmas: The Cimarron Project
Frank Graziani,Victor S. Batista,Lorin X. Benedict,John I. Castor,Hui Chen,Sophia Chen,Chris Fichtl,James N. Glosli,Paul E. Grabowski,Alexander Graf,Stefan P. Hau-Riege,A. U. Hazi,Saad A. Khairallah,Liam Krauss,A. Bruce Langdon,Richard A. London,Andreas Markmann,Michael S. Murillo,David F. Richards,Howard A. Scott,Ronnie Shepherd,Liam Stanton,Frederick H. Streitz,Michael P. Surh,Jon C. Weisheit,Heather D. Whitley +25 more
TL;DR: The Cimarron project as discussed by the authors developed a massively parallel molecular dynamics (MD) code for dense plasmas, which is used to simulate atomic, radiative, and nuclear processes.
Journal ArticleDOI
Coupling strength in Coulomb and Yukawa one-component plasmas
TL;DR: In this article, the radial pair distribution function (RPDF) is used to define and measure the coupling strength in Coulomb and Yukawa OCPs. But the RPDF is often accessible in experiments by direct observation or indirectly through the static structure factor.
Proceedings ArticleDOI
A massively parallel infrastructure for adaptive multiscale simulations: modeling RAS initiation pathway for cancer
Francesco Di Natale,Harsh Bhatia,Timothy S. Carpenter,Chris Neale,Sara I. L. Kokkila-Schumacher,Tomas Oppelstrup,Liam Stanton,Xiaohua Zhang,Shiv Sundram,Thomas R. W. Scogland,Gautham Dharuman,Michael P. Surh,Yue Yang,Claudia Misale,Lars Schneidenbach,Carlos Costa,Changhoan Kim,Bruce D'Amora,Sandrasegaram Gnanakaran,Dwight V. Nissley,Frederick H. Streitz,Felice C. Lightstone,Peer-Timo Bremer,James N. Glosli,Helgi I. Ingólfsson +24 more
TL;DR: This work introduces a first-of-its-kind, massively parallel Multiscale Machine-Learned Modeling Infrastructure (MuMMI), which couples a macro scale model spanning micrometer length- and millisecond time-scales with a micro scale model employing high-fidelity molecular dynamics simulations.