Fractional hoppinglike motion in columnar mesophases of semiflexible rodlike particles

M. Naderi; E.M. Pouget; P. Ballesta; P.P.A.M. Schoot, van der; M.P. Lettinga; E. Grelet

doi:10.1103/PhysRevLett.111.037801

Fractional hoppinglike motion in columnar mesophases of semiflexible rodlike particles

M. Naderi, E.M. Pouget, P. Ballesta, P.P.A.M. Schoot, van der, M.P. Lettinga, E. Grelet

Soft Matter and Biological Physics

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Abstract

We report on single-particle dynamics of strongly interacting filamentous fd virus particles in the liquid-crystalline columnar state in aqueous solution. From fluorescence microscopy, we find that rare, discrete events take place, in which individual particles engage in sudden, jumplike motion along the main rod axis. The jump length distribution is bimodal and centered at half- and full-particle lengths. Our Brownian dynamics simulations of hard semiflexible particles mimic our experiments and indicate that full-length jumps must be due to collective dynamics in which particles move in stringlike fashion in and between neighboring columns, while half jumps arise as a result of particles moving into defects. We find that the finite domain structure of the columnar phase strongly influences the observed dynamics.

Original language	English
Article number	037801
Pages (from-to)	1-5
Journal	Physical Review Letters
Volume	111
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevLett.111.037801
Publication status	Published - 2013

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title = "Fractional hoppinglike motion in columnar mesophases of semiflexible rodlike particles",

abstract = "We report on single-particle dynamics of strongly interacting filamentous fd virus particles in the liquid-crystalline columnar state in aqueous solution. From fluorescence microscopy, we find that rare, discrete events take place, in which individual particles engage in sudden, jumplike motion along the main rod axis. The jump length distribution is bimodal and centered at half- and full-particle lengths. Our Brownian dynamics simulations of hard semiflexible particles mimic our experiments and indicate that full-length jumps must be due to collective dynamics in which particles move in stringlike fashion in and between neighboring columns, while half jumps arise as a result of particles moving into defects. We find that the finite domain structure of the columnar phase strongly influences the observed dynamics.",

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AU - Lettinga, M.P.

AU - Grelet, E.

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AB - We report on single-particle dynamics of strongly interacting filamentous fd virus particles in the liquid-crystalline columnar state in aqueous solution. From fluorescence microscopy, we find that rare, discrete events take place, in which individual particles engage in sudden, jumplike motion along the main rod axis. The jump length distribution is bimodal and centered at half- and full-particle lengths. Our Brownian dynamics simulations of hard semiflexible particles mimic our experiments and indicate that full-length jumps must be due to collective dynamics in which particles move in stringlike fashion in and between neighboring columns, while half jumps arise as a result of particles moving into defects. We find that the finite domain structure of the columnar phase strongly influences the observed dynamics.

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Fractional hoppinglike motion in columnar mesophases of semiflexible rodlike particles

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