stable local energy minimum / latticeoptimization algorithm / local and global energy minima / soft-sphere systems / digital communications / short-ranged repulsive power-law pair potentials / lattice site / granular media / lower energy / Event-driven packing protocols / random media / hard-sphere systems / energy / energy land / energy minimum / jammed-packing solution / energy landscape / local energy minimum / molecular-dynamics packing algorithm / stable global energy minimum / trivial solution / deterministic algorithm / typical protocols / generation packing protocol / numerical algorithm / moleculardynamics algorithm / numerical solution / polymeric systems / /
Organization
Department of Mechanical and Aerospace Engineering / Princeton University / Princeton Institute for the Science and Technology of Materials / Department of Physics / U.S. Securities and Exchange Commission / Department of Chemistry / Federal Communications Commission / Princeton Center for Theoretical Science / /
Product
SLP / SLP solution / /
ProvinceOrState
New Jersey / /
Technology
S. TORQUATO AND Y. JIAO protocol / jamming-test protocol / 1 1 1 LS algorithm / packing protocol / 0 1 2 3 4 r/D 0 5 2 LS algorithm / 0 2 SLP algorithm / SLP algorithms / 0 SLP algorithm / SLP algorithm / 4 0 SLP algorithm / LS protocol / Event-driven packing protocols / PDC algorithm / Zinchenko protocol / two algorithms / d=3 d=4 d=5 d=6 LS algorithm SLP algorithm / Zinchenko algorithm / 4D mn SLP algorithm / LS algorithm / deterministic algorithm / molecular-dynamics packing algorithm / numerical algorithm / crystallization / SLP protocol / 3 2 2 LS algorithm LS algorithm / cell phones / moleculardynamics algorithm / simulation / Our SLP algorithm / Technology of Materials / LS algorithms / latticeoptimization algorithm / using the LS algorithm / /
PHYSICAL REVIEW E 82, 061302 共2010兲 Robust algorithm to generate a diverse class of dense disordered and ordered sphere packings via linear programming S. Torquato1,2 and Y. Jiao2