Matches in SemOpenAlex for { <https://semopenalex.org/work/W2016802382> ?p ?o ?g. }
- W2016802382 abstract "We present experimental evidence that the effective medium approximation (EMA), [D. C. Morse, Phys. Rev. E 63, 031502 (2001)], provides the correct scaling law of the plateau modulus G0 proportional variantrho4/3Lp(-1/3) (with rho the contour length per unit volume and Lp the persistence length) of semiflexible polymer solutions, in the highly entangled regime. Competing theories, including a binary collision approximation (BCA), instead predict G0 proportional, variantrho7/5Lp(-1/5). We have tested both predictions using F-actin solutions which permit experimental control of Lp independently of other parameters. A combination of video particle tracking microrheology and dynamic light scattering yields independent measurements of G0 and Lp, respectively. Thus we can distinguish between the two proposed laws, in contrast to previous experimental studies focused on the (less discriminating) concentration dependence." @default.
- W2016802382 created "2016-06-24" @default.
- W2016802382 creator A5023130203 @default.
- W2016802382 creator A5040358320 @default.
- W2016802382 creator A5061430877 @default.
- W2016802382 creator A5077232841 @default.
- W2016802382 creator A5086068535 @default.
- W2016802382 creator A5086726856 @default.
- W2016802382 date "2008-11-06" @default.
- W2016802382 modified "2023-10-18" @default.
- W2016802382 title "Dynamics of Semiflexible Polymer Solutions in the Highly Entangled Regime" @default.
- W2016802382 cites W1965909643 @default.
- W2016802382 cites W1970723453 @default.
- W2016802382 cites W1994985394 @default.
- W2016802382 cites W2006370203 @default.
- W2016802382 cites W2008792915 @default.
- W2016802382 cites W2009801564 @default.
- W2016802382 cites W2010739090 @default.
- W2016802382 cites W2017757034 @default.
- W2016802382 cites W2031167698 @default.
- W2016802382 cites W2036809892 @default.
- W2016802382 cites W2037650847 @default.
- W2016802382 cites W2039445302 @default.
- W2016802382 cites W2046857574 @default.
- W2016802382 cites W2054808951 @default.
- W2016802382 cites W2070967303 @default.
- W2016802382 cites W2075831361 @default.
- W2016802382 cites W2075866529 @default.
- W2016802382 cites W2084472178 @default.
- W2016802382 cites W2093145254 @default.
- W2016802382 cites W2149374899 @default.
- W2016802382 cites W2156237174 @default.
- W2016802382 cites W2917434795 @default.
- W2016802382 doi "https://doi.org/10.1103/physrevlett.101.198301" @default.
- W2016802382 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19113316" @default.
- W2016802382 hasPublicationYear "2008" @default.
- W2016802382 type Work @default.
- W2016802382 sameAs 2016802382 @default.
- W2016802382 citedByCount "46" @default.
- W2016802382 countsByYear W20168023822012 @default.
- W2016802382 countsByYear W20168023822013 @default.
- W2016802382 countsByYear W20168023822014 @default.
- W2016802382 countsByYear W20168023822015 @default.
- W2016802382 countsByYear W20168023822016 @default.
- W2016802382 countsByYear W20168023822017 @default.
- W2016802382 countsByYear W20168023822018 @default.
- W2016802382 countsByYear W20168023822019 @default.
- W2016802382 countsByYear W20168023822020 @default.
- W2016802382 countsByYear W20168023822021 @default.
- W2016802382 countsByYear W20168023822022 @default.
- W2016802382 countsByYear W20168023822023 @default.
- W2016802382 crossrefType "journal-article" @default.
- W2016802382 hasAuthorship W2016802382A5023130203 @default.
- W2016802382 hasAuthorship W2016802382A5040358320 @default.
- W2016802382 hasAuthorship W2016802382A5061430877 @default.
- W2016802382 hasAuthorship W2016802382A5077232841 @default.
- W2016802382 hasAuthorship W2016802382A5086068535 @default.
- W2016802382 hasAuthorship W2016802382A5086726856 @default.
- W2016802382 hasBestOaLocation W20168023822 @default.
- W2016802382 hasConcept C120665830 @default.
- W2016802382 hasConcept C121332964 @default.
- W2016802382 hasConcept C121704057 @default.
- W2016802382 hasConcept C121864883 @default.
- W2016802382 hasConcept C134306372 @default.
- W2016802382 hasConcept C145912823 @default.
- W2016802382 hasConcept C168568712 @default.
- W2016802382 hasConcept C186541917 @default.
- W2016802382 hasConcept C191486275 @default.
- W2016802382 hasConcept C24890656 @default.
- W2016802382 hasConcept C2524010 @default.
- W2016802382 hasConcept C2780030769 @default.
- W2016802382 hasConcept C33923547 @default.
- W2016802382 hasConcept C34123561 @default.
- W2016802382 hasConcept C38652104 @default.
- W2016802382 hasConcept C41008148 @default.
- W2016802382 hasConcept C46141821 @default.
- W2016802382 hasConcept C48372109 @default.
- W2016802382 hasConcept C521977710 @default.
- W2016802382 hasConcept C74650414 @default.
- W2016802382 hasConcept C94375191 @default.
- W2016802382 hasConcept C97355855 @default.
- W2016802382 hasConcept C99844830 @default.
- W2016802382 hasConcept C99895341 @default.
- W2016802382 hasConceptScore W2016802382C120665830 @default.
- W2016802382 hasConceptScore W2016802382C121332964 @default.
- W2016802382 hasConceptScore W2016802382C121704057 @default.
- W2016802382 hasConceptScore W2016802382C121864883 @default.
- W2016802382 hasConceptScore W2016802382C134306372 @default.
- W2016802382 hasConceptScore W2016802382C145912823 @default.
- W2016802382 hasConceptScore W2016802382C168568712 @default.
- W2016802382 hasConceptScore W2016802382C186541917 @default.
- W2016802382 hasConceptScore W2016802382C191486275 @default.
- W2016802382 hasConceptScore W2016802382C24890656 @default.
- W2016802382 hasConceptScore W2016802382C2524010 @default.
- W2016802382 hasConceptScore W2016802382C2780030769 @default.
- W2016802382 hasConceptScore W2016802382C33923547 @default.
- W2016802382 hasConceptScore W2016802382C34123561 @default.
- W2016802382 hasConceptScore W2016802382C38652104 @default.
- W2016802382 hasConceptScore W2016802382C41008148 @default.
- W2016802382 hasConceptScore W2016802382C46141821 @default.