Topology and Geometry of Biopolymers
Topology and Geometry of Biopolymers2020
Details
- First published
- 2020
- OL Work ID
- OL25889971W
Subjects
PhysiologyBiopolymersMathematicsCongressesTopologyKnot theoryManifolds and cell complexes {For complex manifolds, see 32Qxx} -- Low-dimensional topology -- Knots and links in $S3$ {For higher dimensions, see 57Q45Manifolds and cell complexes {For complex manifolds, see 32Qxx} -- Low-dimensional topology -- Invariants of knots and 3-manifoldsCombinatorics {For finite fields, see 11Txx} -- Graph theory {For applications of graphs, see 68R10, 81Q30, 81T15, 82B20, 82C20, 90C35, 92E10, 94C15} -- Planar graphs; geometric and topological aspectBiology and other natural sciences -- Physiological, cellular and medical topics -- BiophysicsBiology and other natural sciences -- Physiological, cellular and medical topics -- Biochemistry, molecular biologyBiology and other natural sciences -- Genetics and population dynamics -- Protein sequences, DNA sequencesBiology and other natural sciences -- Chemistry {For biochemistry, see 92C40} -- Molecular structure (graph-theoretic methods, methods of differential topology, etc.).Statistical mechanics, structure of matter -- Applications to specific types of physical systems -- PolymersStatistical mechanics, structure of matter -- Equilibrium statistical mechanics -- Random walks, random surfaces, lattice animals, etc. [See also 60G50, 82C41]Numerical analysis -- Probabilistic methods, simulation and stochastic differential equations {For theoretical aspects, see 68U20 and 60H35} -- Monte Carlo methods