Search results for "Statistical physics"

showing 10 items of 1402 documents

Statistical Mechanics of Polymers: New Developments - International Workshop

2007

chemistry.chemical_classificationEngineeringPolymers and PlasticsPolymer sciencebusiness.industryOrganic ChemistryStatistical mechanicsPolymerCondensed Matter PhysicschemistryPolymer chemistryMaterials ChemistryStatistical physicsPhysical and Theoretical ChemistrybusinessMacromolecular Chemistry and Physics
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Simulation of Dense Polymer Systems in Two and Three Dimensions

1991

Dense polymer systems are modeled by self- and mutually avoiding walks on lattices. Both simple models where the step length is one lattice spacing and more complicated models where the step length is distinctly longer and may fluctuate (“bond fluctuation model”) are discussed, and it is shown that the computer simulation of such models gives useful insight to understand the thermodynamic phase behavior and the relaxational dynamics of dense polymer solutions and polymer melts. The huge demands in computing power needed for a successful simulation of such systems can be covered by parallel computers such as the multitransputer facility of the University of Mainz.

chemistry.chemical_classificationMaterials sciencePhase (waves)General Physics and AstronomyStatistical and Nonlinear PhysicsPolymerStride lengthComputer Science ApplicationsPower (physics)Lattice constantComputational Theory and MathematicschemistrySimple (abstract algebra)Statistical physicsBond fluctuation modelMathematical PhysicsInternational Journal of Modern Physics C
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Dynamics of phase separation and critical phenomena in polymer mixtures

1987

The phenomenological mean-field theory for statics and dynamics of polymer mixtures is described, generalizing the approaches of Flory-Huggins, Cahn-Hilliard and de Gennes. Predictions are made for critical behavior, spinodal decomposition and homogeneous nucleation. The validity of the mean-field approximations is discussed with Ginzburg criteria. The results of the theory are compared to computer simulations and recent experiments.

chemistry.chemical_classificationMaterials sciencePolymers and PlasticsSpinodal decompositionCritical phenomenaNucleationThermodynamicsPolymerCondensed Matter::Soft Condensed MatterColloid and Surface ChemistrychemistryCritical point (thermodynamics)HomogeneousMaterials ChemistryStatistical physicsPhysical and Theoretical ChemistryStaticsColloid and Polymer Science
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Grafted polymer layers under variable solvent conditions: A Monte Carlo simulation

1993

Polymer chains anchored with one end at a hard wall under variable solvent conditions are investigated by Monte Carlo simulations using the bond- fluctuation model. Detail information on the structural properties are obtained above, at, and below the Θ-point and discussed in terms of the appropriate theories. In particular, the scaling of the brush thickness is formulated and verified by the simulation data. For the dynamics at the Θ-point, both the relaxation time of the chain configuration and the mean-square time displacement are studied. At temperatures distinctly below the Θ-point, we find that the layer develops considerable lateral inhomogeneity in its density, which has not been pre…

chemistry.chemical_classificationMaterials sciencePolymers and PlasticsTime displacementOrganic ChemistryMonte Carlo methodMechanicsPolymerCondensed Matter PhysicsSolventChain (algebraic topology)chemistryMaterials ChemistryStatistical physicsScalingVariable (mathematics)Makromolekulare Chemie. Macromolecular Symposia
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Monte Carlo simulation of the glass transition in polymer melts: An application of MCT

1995

Abstract This paper reviews the results of a large scale Monte Carlo simulation for the dynamics of a supercooled polymer melt. The dynamics of the melt was studied by means of the time evolution of the incoherent intermediate scattering function φs q(t), which was monitored over seven decades in time. In an intermediate time window it is possible to describe the decay of φs q(t) quantitatively in the framework of mode-coupling theory, provided the extended version of the theory is used.

chemistry.chemical_classificationMaterials scienceScale (ratio)Applied MathematicsMonte Carlo methodTime evolutionGeneral Physics and AstronomyThermodynamicsTransportationStatistical and Nonlinear PhysicsPolymerCondensed Matter::Soft Condensed MatterchemistryTime windowsDynamic Monte Carlo methodStatistical physicsGlass transitionSupercoolingMathematical PhysicsTransport Theory and Statistical Physics
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Enrichment of the chain ends in polymer melts at interfaces

1991

chemistry.chemical_classificationMaterials sciencechemistryPolymer scienceChain (algebraic topology)General EngineeringStatistical and Nonlinear PhysicsPolymerStatistical physicsJournal de Physique I
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Monte Carlo and molecular dynamics simulation of the glass transition of polymers

1998

Two coarse-grained models for polymer chains in dense glass-forming polymer melts are studied by computer simulation: the bond-fluctuation model on a simple cubic lattice, where a bond-length potential favors long bonds, is treated by dynamic Monte Carlo methods, and a bead-spring model in the continuum with a Lennard-Jones potential between the beads is treated by Molecular Dynamics. While the dynamics of both models differ for short length scales and associated time scales, on mesoscopic spatial and temporal scales both models behave similarly. In particular, the mode coupling theory of the glass transition can be used to interpret the slowing down of the undercooled polymer melt. For the…

chemistry.chemical_classificationMesoscopic physicsComputer simulationChemistryMonte Carlo methodFOS: Physical sciencesDisordered Systems and Neural Networks (cond-mat.dis-nn)PolymerCondensed Matter - Soft Condensed MatterCondensed Matter - Disordered Systems and Neural NetworksCondensed Matter PhysicsCondensed Matter::Soft Condensed MatterMolecular dynamicsMode couplingSoft Condensed Matter (cond-mat.soft)Entropy (information theory)General Materials ScienceStatistical physicsGlass transition
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Computer Simulation of Polymers: Physics and Methods from Specific to Universal

2004

We will discuss in this contribution several aspects of the physics of polymers on different length and time scales and the simulation methods suited for their study. A Molecular Dynamics (MD) simulation of a chemically realistic model is needed to get quantitative insight into local relaxation processes. This study will also reveal the importance of four-particle correlations in polymer dynamics resulting from the presence of dihedral potentials along the chain. Universal largescale chain relaxation can be studied by realistic models as well, but in far better statistical accuracy by Monte Carlo (MC) simulations of a coarse-grained lattice model. Finally we will present considerations for …

chemistry.chemical_classificationMolecular dynamicschemistryChain (algebraic topology)Computer scienceMonte Carlo methodSpin–lattice relaxationRelaxation (approximation)PolymerStatistical physicsDihedral angleLattice model (physics)
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Phase transitions in polymeric systems: A challenge for Monte Carlo simulation

1995

Polymers are more difficult to simulate than small molecule systems, due to the large size of random polymer coils (and their slow relaxation, that is observed when dynamic simulation algorithms are used). However, variation of the chain length N of a flexible polymer chain provides a very useful additional control parameter, allowing stringent tests of theories, and new physical phenomena may emerge. As an example of these concepts, critical phenomena in polymer mixtures are described. It is shown that unmixing of symmetrical mixtures ( N A = N B = N ) is described by an equation for the critical temperature T c ( N ) = aN + b rather than T c ∝ N as claimed by some theories. While for fini…

chemistry.chemical_classificationNuclear and High Energy PhysicsPhase transitionCritical phenomenaMonte Carlo methodCrossoverPolymerAtomic and Molecular Physics and OpticsDynamic simulationchemistryLattice (order)Statistical physicsScalingMathematicsNuclear Physics B - Proceedings Supplements
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Standard Definitions of Persistence Length Do Not Describe the Local “Intrinsic” Stiffness of Real Polymer Chains

2010

On the basis of extensive Monte Carlo simulations of lattice models for linear chains under good and Θ solvents conditions, and for bottle-brush polymers under good solvent conditions, different me...

chemistry.chemical_classificationPersistence lengthPhysics::Biological PhysicsQuantitative Biology::BiomoleculesPolymers and PlasticsOrganic ChemistryMonte Carlo methodStiffnessPolymerCondensed Matter::Soft Condensed MatterInorganic ChemistrychemistryLattice (order)Materials ChemistrymedicineStatistical physicsPhysics::Chemical Physicsmedicine.symptomWorm-like chainMacromolecules
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