Active supercoiling induction in plasmid suspensions creates branched conformations and locks threaded entanglements into slowly relaxing clusters.
Plimpton, Fast parallel algorithms for short-range molecular dynamics, J
6 Pith papers cite this work. Polarity classification is still indexing.
6
Pith papers citing it
citation-role summary
method 1
citation-polarity summary
roles
method 1polarities
use method 1representative citing papers
Cohesive fine particles trap in static beds of larger particles via collision-induced adhesion and friction, overriding geometric percolation expectations at diameter ratio 7.
Helical multilayer graphene relaxes into supermoiré domains whose effective Hamiltonians partition the low-energy spectrum into folded Dirac sectors with domain-dependent and gate-tunable valley topology.
An end-to-end framework combining domain separation, lightweight ML potentials, and de novo in silico synthesis enables quantitative atomistic modeling of mesoporous metallosilicates that matches experimental densities, pair distribution functions, IR spectra, and hydroxyl densities.
Green-Kubo MD simulations with MLPs yield up to 119% higher thermal conductivity than phonon quasiparticle methods for seifertite and pyrite-type SiO2, with a 19% reduction at the phase transition that may form an insulating layer in super-Earth mantles.
Thermodynamic fluctuations in a Griffiths-like region near a liquid-vapor-glass frustration state explain the Stokes-Einstein breakdown in supercooled metallic glass-forming liquids.
citing papers explorer
-
Actively induced supercoiling can slow down plasmid solutions by trapping the threading entanglements
Active supercoiling induction in plasmid suspensions creates branched conformations and locks threaded entanglements into slowly relaxing clusters.
-
Percolation of a cohesive fine particle in a static bed
Cohesive fine particles trap in static beds of larger particles via collision-induced adhesion and friction, overriding geometric percolation expectations at diameter ratio 7.
-
Supermoir\'{e} domain-resolved effective Hamiltonians and valley topology in helical multilayer graphene
Helical multilayer graphene relaxes into supermoiré domains whose effective Hamiltonians partition the low-energy spectrum into folded Dirac sectors with domain-dependent and gate-tunable valley topology.
-
An experimentally validated end-to-end framework for operando modeling of intrinsically complex metallosilicates
An end-to-end framework combining domain separation, lightweight ML potentials, and de novo in silico synthesis enables quantitative atomistic modeling of mesoporous metallosilicates that matches experimental densities, pair distribution functions, IR spectra, and hydroxyl densities.
-
Thermal conductivity of seifertite and pyrite-type SiO$_2$: A comparative study
Green-Kubo MD simulations with MLPs yield up to 119% higher thermal conductivity than phonon quasiparticle methods for seifertite and pyrite-type SiO2, with a 19% reduction at the phase transition that may form an insulating layer in super-Earth mantles.
-
Griffiths-like region explains the dynamic anomaly in metallic glass-forming liquids
Thermodynamic fluctuations in a Griffiths-like region near a liquid-vapor-glass frustration state explain the Stokes-Einstein breakdown in supercooled metallic glass-forming liquids.