Search results for "Monte Carlo method"

showing 10 items of 1234 documents

1995

Surfaces have a profound effect on the structure and related properties of multiphase polymeric materials, such as polymer mixtures and block copolymer mesophases. In particular, phase transitions in the bulk (unmixing, microphase separation, etc.) may be complemented by surface-induced transitions (formation of wetting layers, surface-directed spinodal decomposition, surface-induced ordering). This review gives a brief introduction to the phenomenological theories of such phenomena, emphasizing the simplest approach based on Flory—Huggins—de Gennes free energy functionals and associated Monte Carlo simulations. More sophisticated theories and recent experiments are mentioned briefly.

chemistry.chemical_classificationPhase transitionPolymers and PlasticsSpinodal decompositionGeneral Chemical EngineeringMonte Carlo methodMineralogyThermodynamicsPolymerCondensed Matter::Soft Condensed MatterchemistryMean field theoryPhenomenological modelWettingPolymer blendActa Polymerica
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One- and two-component bottle-brush polymers: simulations compared to theoretical predictions

2007

Scaling predictions and results from self-consistent field calculations for bottle-brush polymers with a rigid backbone and flexible side chains under good solvent conditions are summarized and their validity and applicability is assessed by a comparison with Monte Carlo simulations of a simple lattice model. It is shown that under typical conditions, as they are also present in experiments, only a rather weak stretching of the side chains is realized, and then the scaling predictions based on the extension of the Daoud-Cotton blob picture are not applicable. Also two-component bottle brush polymers are considered, where two types (A,B) of side chains are grafted, assuming that monomers of …

chemistry.chemical_classificationPhase transitionQuantitative Biology::BiomoleculesPolymers and PlasticsChemistryOrganic ChemistryMonte Carlo methodFOS: Physical sciencesThermodynamicsPolymerCondensed Matter - Soft Condensed MatterCondensed Matter PhysicsPolymer brushInorganic ChemistryCondensed Matter::Soft Condensed MatterMaterials ChemistrySide chainRadius of gyrationSoft Condensed Matter (cond-mat.soft)Statistical physicsScalingLattice model (physics)
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The intermediate coherent scattering function of entangled polymer melts: a Monte Carlo test of des Cloizeaux' theory

1994

Using the bond fluctuation model for flexible polymer chains in a dense melt the intermediate coherent scattering function for chains containing N=200 monomers is calculated and interpreted in terms of a recent theory of des Cloizeaux. The theory yields an explicit description for the crossover from the Rouse model to the regime where reptation prevails, for the limit N→∞. While the Monte Carlo data are qualitatively compatible with this description, an accurate estimation of the tube diameter is prevented due to the onset of a diffusive decay of the scattering function, not included in the theory. For a full quantitative analysis of the Monte Carlo data (as well as of experiments on chains…

chemistry.chemical_classificationPhysics and Astronomy (miscellaneous)ScatteringMonte Carlo methodCrossoverGeneral EngineeringPolymerFunction (mathematics)Atomic and Molecular Physics and OpticsCondensed Matter::Soft Condensed MatterMonte carlo testReptationchemistryStatistical physicsLimit (mathematics)Journal de Physique II
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Third virial coefficient for 4-arm and 6-arm star polymers

2008

We discuss the computation of the third virial coefficient in polymer systems, focusing on an additional contribution absent in the case of monoatomic fluids. We determine the interpenetration ratio and several quantities that involve the third virial coefficient for star polymers with 4 and 6 arms in the good-solvent regime, in the limit of a large degree of polymerization.

chemistry.chemical_classificationPhysicsMonatomic gasStatistical Mechanics (cond-mat.stat-mech)Polymers and PlasticsOrganic ChemistryMonte Carlo methodFOS: Physical sciencesThermodynamicsPolymerStatistical mechanicsDegree of polymerizationCondensed Matter - Soft Condensed MatterCondensed Matter Physicsmonte carlo simulations; star polymers; statistical mechanics; statistical thermodynamics; virial expansionInorganic ChemistrychemistryVirial coefficientMaterials ChemistryVirial expansionSoft Condensed Matter (cond-mat.soft)Limit (mathematics)Condensed Matter - Statistical Mechanics
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Phase transitions in a single polymer chain: A micro-canonical analysis of Wang–Landau simulations

2008

Abstract We present simulation results for the phase behavior of a single chain for a flexible lattice polymer model using the Wang–Landau sampling idea. Using the micro-canonical density of states obtained with this method we will discuss the ability of an analysis in the micro-canonical ensemble to locate the coil-globule (continuous) and liquid–solid (first-order) transitions found for this problem using a canonical analysis.

chemistry.chemical_classificationPhysicsPhase transitionMonte Carlo methodGeneral Physics and AstronomyPolymerSingle chainCanonical analysischemistryHardware and ArchitectureLattice (order)Density of statesStatistical physicsPhase diagramComputer Physics Communications
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A Monte Carlo Study of Living Polymers in 2D: Effect of Small Chains on Static Properties

1996

A slithering snake algorithm is combined with a binding and breaking chain algorithm to simulate the static behavior of living polymers according to Cates' description. It is shown that this simple two-dimensional simulation on a square lattice gives good agreement with the mean field theory. However, the large amount of small contour length chains for small values of the mean average length 〈L 〉 appears to be one of the reasons for the discrepancies observed between the simulated results and the mean field theory. This finding could explain disagreements between experimental observation and theory. Also, the results are not in favor of a swelling of the greater chains by the smaller one.

chemistry.chemical_classificationPhysicsPhysics and Astronomy (miscellaneous)Monte Carlo methodGeneral EngineeringPolymerSquare latticeAtomic and Molecular Physics and OpticschemistryChain (algebraic topology)Mean field theoryContour lengthStatistical physicsStatic behaviorArithmetic meanJournal de Physique II
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KINETICS OF POLYMER EJECTION FROM CAPSID CONFINEMENT: SCALING CONSIDERATIONS AND COMPUTER EXPERIMENT

2012

We investigate the ejection dynamics of a flexible polymer chain out of confined environment by means of scaling considerations and Monte Carlo simulations. Situations of this kind arise in different physical contexts, including a flexible synthetic polymer partially confined in a nanopore and a viral genome partially ejected from its capsid. In the case of cylindric confinement the entropic driving force which pulls the chain out of the pore is argued to be constant once a few persistent lengths are out of the pore. We demonstrate that in this case the ejection dynamics follows a [Formula: see text]-law with elapsed time t. The mean ejection time τ depends nonmonotonically on chain length…

chemistry.chemical_classificationPhysicsQuantitative Biology::BiomoleculesMonte Carlo methodDynamics (mechanics)General Physics and AstronomyStatistical and Nonlinear PhysicsNanotechnologyPolymerMechanicsComputer experimentComputer Science ApplicationsNanoporeComputational Theory and MathematicschemistryChain (algebraic topology)Constant (mathematics)ScalingMathematical PhysicsInternational Journal of Modern Physics C
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Pulling Single Adsorbed Bottle-Brush Polymers off a Flat Surface: A Monte Carlo Simulation

2013

Force versus extension behavior of flexible chains and semiflexible bottle-brush polymers adsorbed from a good solvent on a planar substrate is studied by Monte Carlo simulation of the bond fluctua...

chemistry.chemical_classificationPhysics::Biological PhysicsQuantitative Biology::BiomoleculesMaterials sciencebusiness.product_categoryPolymers and PlasticsFlat surfaceOrganic ChemistryMonte Carlo methodBrushPolymerMolecular physicslaw.inventionCondensed Matter::Soft Condensed MatterInorganic ChemistrySolventAdsorptionchemistrylawMaterials ChemistryBottlePlanar substrateStatistical physicsPhysics::Chemical PhysicsbusinessMacromolecules
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Polymer chains confined into tubes with attractive walls: A Monte Carlo simulation

1994

A bead-spring off-lattice model of a polymer chain with repulsive interactions among repeating units confined into straight tubes of various cross sections, DT2, is studied by Monte Carlo simulation. We are also varying the chain length from N = 16 to 128 and the strength of a short-range attractive interaction between the repeating units and the walls of the tube. Longitudinal and perpendicular static linear dimensions of the chains are analyzed, as well as the density profile of repeating units across the tube. These data are interpreted in terms of scaling concepts describing the crossover between three-dimensional and quasi-one-dimensional chain conformations and the adsorption transiti…

chemistry.chemical_classificationPolymers and Plastics530 PhysicsOrganic ChemistryMonte Carlo methodRelaxation (NMR)Polymer530 PhysikCondensed Matter PhysicsMolecular physicsInorganic ChemistrychemistryChain (algebraic topology)Materials ChemistryPerpendicularRadius of gyrationConfined spaceScalingSimulationMacromolecular Theory and Simulations
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Osmotic pressure, atomic pressure and the virial equation of state of polymer solutions: Monte Carlo simulations of a bead-spring model

1994

A recently introduced coarse-grained model of polymer chains is studied analyzing various contributions to the pressure as obtained from the virial theorem as a function of chain length N, temperature T and density ϕ. The off-lattice model of the polymer chains has anharmonic springs between the beads, but of finite extensibility, and the Morse-type interaction between beads is repulsive at very short distances and attractive at intermediate distances. Solvent molecules are not explicitly included. It is found that the covalent forces along the chain (modelled by the spring potentials) contribute a negative term to the pressure, irrespective of temperature, which vanishes linearly in ϕ as ϕ…

chemistry.chemical_classificationPolymers and PlasticsChemistryOrganic ChemistryMonte Carlo methodAnharmonicityThermodynamicsPolymerCondensed Matter PhysicsVirial theoremInorganic ChemistrySpring (device)Materials ChemistryOsmotic pressureTotal pressureScalingMacromolecular Theory and Simulations
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