Critical exponents, hyperscaling, and universal amplitude ratios for two- and three-dimensional self-avoiding walks.
From MaRDI portal
Publication:1593281
DOI10.1007/BF02178552zbMath1114.82303arXivhep-lat/9409003WikidataQ56893414 ScholiaQ56893414MaRDI QIDQ1593281
Alan D. Sokal, Neal Madras, Bin Li
Publication date: 16 January 2001
Published in: Journal of Statistical Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/hep-lat/9409003
Monte Carlopolymercritical exponentrenormalization grouppivot algorithmself-avoiding walkhyperscalingsecond virial coefficientinterpenetration ratioKarp-Luby algorithmtwo-parameter theoryuniversal amplitude ratio
Lua error in Module:PublicationMSCList at line 37: attempt to index local 'msc_result' (a nil value).
Related Items (32)
Persistence length convergence and universality for the self-avoiding random walk ⋮ Extrapolation of perturbation-theory expansions by self-similar approximants ⋮ Self-avoiding walks with writhe ⋮ Four-point renormalized coupling constant and Callan-Symanzik \(\beta\)-function in \(O(N)\) models ⋮ Self-similar extrapolation from weak to strong coupling ⋮ Scale-free Monte Carlo method for calculating the critical exponentγof self-avoiding walks ⋮ Improved model for mixtures of polymers and hard spheres ⋮ A review of Monte Carlo simulations of polymers with PERM ⋮ Finite-size scaling in unbiased translocation dynamics ⋮ Exact enumeration of self-avoiding walks on BCC and FCC lattices ⋮ Writhe induced phase transition in unknotted self-avoiding polygons ⋮ EXACT RENORMALIZATION GROUP EQUATIONS AND THE FIELD THEORETICAL APPROACH TO CRITICAL PHENOMENA ⋮ The Hammersley-Welsh bound for self-avoiding walk revisited ⋮ Polymers with spatial or topological constraints: theoretical and computational results ⋮ Precise determination of critical exponents and equation of state by field theory methods ⋮ Self-similar power transforms in extrapolation problems ⋮ Self-similar continued root approximants ⋮ Efficient implementation of the Pivot algorithm for self-avoiding walks ⋮ Statistical topology of closed curves: Some applications in polymer physics ⋮ Thoughts on lattice knot statistics ⋮ History and Introduction to Polygon Models and Polyominoes ⋮ Monte Carlo Methods for Lattice Polygons ⋮ Phase transitions of single semistiff polymer chains ⋮ Invariant manifolds associated to nonresonant spectral subspaces ⋮ Squeezing knots ⋮ The parameterization method for invariant manifolds. III: Overview and applications ⋮ Several constants arising in statistical mechanics ⋮ Monte Carlo study of the interacting self-avoiding walk model in three dimensions. ⋮ A Monte Carlo algorithm for lattice ribbons. ⋮ Non-perturbative renormalization flow in quantum field theory and statistical physics ⋮ Asymptotics of linked polygons ⋮ Comment on the universality class of self-avoiding walks on a two-layer square lattice
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Geometric analysis of \(\phi^ 4\) fields and Ising models. I, II
- Non-Gaussian fixed points of the block spin transformation. Hierarchical model approximation
- Correction-to-scaling exponents for two-dimensional self-avoiding walks
- Mean-field critical behaviour for percolation in high dimensions
- Non-Gaussian scaling limits. Hierarchical model approximation
- A renormalizable field theory: The massive Gross-Neveu model in two dimensions
- Critical behavior of two-dimensional spin models and charge asymmetry in the Coulomb gas
- The diffusion of self-avoiding random walk in high dimensions
- Intersections of random walks. A direct renormalization approach
- The scaling limit of self-avoiding random walk in high dimensions
- On Edwards' model for long polymer chains
- On Edwards' model for polymer chains. III. Borel summability
- Self-avoiding walk in five or more dimensions. I: The critical behaviour
- Mean-field critical behaviour for correlation length for percolation in high dimensions
- The pivot algorithm: a highly efficient Monte Carlo method for the self-avoiding walk.
- Nonsymmetric first-order transitions: finite-size scaling and tests for infinite-range models.
- On the corrections to scaling in three-dimensional Ising models.
- New lower bounds on the self-avoiding-walk connective constant
- Regularity properties and pathologies of position-space renormalization-group transformations: scope and limitations of Gibbsian theory
- Critical exponents from field theory
- Local Contractions and a Theorem of Poincare
- Convergence of self-avoiding random walk to Brownian motion in high dimensions
- Monte-Carlo approximation algorithms for enumeration problems
- THE LACE EXPANSION FOR SELF-AVOIDING WALK IN FIVE OR MORE DIMENSIONS
- The Number of Generators of Finite Linear Groups
- The statistical mechanics of polymers with excluded volume
This page was built for publication: Critical exponents, hyperscaling, and universal amplitude ratios for two- and three-dimensional self-avoiding walks.
