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Effective Topological Charge Cancelation Mechanism.


ABSTRACT: Topological defects (TDs) appear almost unavoidably in continuous symmetry breaking phase transitions. The topological origin makes their key features independent of systems' microscopic details; therefore TDs display many universalities. Because of their strong impact on numerous material properties and their significant role in several technological applications it is of strong interest to find simple and robust mechanisms controlling the positioning and local number of TDs. We present a numerical study of TDs within effectively two dimensional closed soft films exhibiting in-plane orientational ordering. Popular examples of such class of systems are liquid crystalline shells and various biological membranes. We introduce the Effective Topological Charge Cancellation mechanism controlling localised positional assembling tendency of TDs and the formation of pairs {defect, antidefect} on curved surfaces and/or presence of relevant "impurities" (e.g. nanoparticles). For this purpose, we define an effective topological charge ?meff consisting of real, virtual and smeared curvature topological charges within a surface patch ?? identified by the typical spatially averaged local Gaussian curvature K. We demonstrate a strong tendency enforcing ?meff???0 on surfaces composed of ?? exhibiting significantly different values of spatially averaged K. For ?meff???0 we estimate a critical depinning threshold to form pairs {defect, antidefect} using the electrostatic analogy.

SUBMITTER: Mesarec L 

PROVIDER: S-EPMC4890433 | biostudies-literature | 2016 Jun

REPOSITORIES: biostudies-literature

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Effective Topological Charge Cancelation Mechanism.

Mesarec Luka L   Góźdź Wojciech W   Iglič Aleš A   Kralj Samo S  

Scientific reports 20160601


Topological defects (TDs) appear almost unavoidably in continuous symmetry breaking phase transitions. The topological origin makes their key features independent of systems' microscopic details; therefore TDs display many universalities. Because of their strong impact on numerous material properties and their significant role in several technological applications it is of strong interest to find simple and robust mechanisms controlling the positioning and local number of TDs. We present a numer  ...[more]

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