Spatial monomer distribution for a flexible polymer in a good solvent
- 15 February 1981
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 74 (4) , 2582-2588
- https://doi.org/10.1063/1.441330
Abstract
We calculate the fourth moment 〈r 4〉 of the average monomer–monomer separation in a flexible linear polymer in the excluded volume limit. The ratio 〈r 4〉/〈r 2〉2 is a universal number expressible in terms of the exponents γ and ν. The ratio is 8% s m a l l e r for the excluded volume chain than for the ideal chain. To account for the excluded volume interaction we use field theory methods to renormalize the Mayer–Fixman cluster expansion. Our approximation method of expanding in dimension of space minus four introduces an estimated uncertainty of 1%. The end point moment ratio 〈r 4 e 〉/〈r 2 e 〉2 behaves similarly.Keywords
This publication has 25 references indexed in Scilit:
- A method for determining by direct renormalization the properties of long polymers in solutionsJournal de Physique Lettres, 1980
- Renormalized field theory of polymer solutions : extension to general polydispersityJournal de Physique, 1980
- Excluded-Volume Effects in Dilute Polymer Solutions. 7. Very High Molecular Weight Polystyrene in Benzene and CyclohexaneMacromolecules, 1978
- Polymers and scalingPhysics Reports, 1976
- Strong Magnetic Fields Produced by Composition Discontinuities in Laser-Produced PlasmasPhysical Review Letters, 1974
- Experimental Determinations of the Excluded-Volume Exponent in Different EnvironmentsPhysical Review Letters, 1974
- Effects of Excluded Volume on Light Scattered from Flexible MacromoleculesThe Journal of Chemical Physics, 1968
- Theory of Dilute Polymer Solution. I. Excluded Volume EffectThe Journal of Chemical Physics, 1958
- Excluded Volume in Polymer ChainsThe Journal of Chemical Physics, 1955
- The Determination of Polymeric Molecular Weights by Light Scattering in Solvent-Precipitant SystemsThe Journal of Chemical Physics, 1946