Publications by authors named "M Calderer"
Article Synopsis
- - The study investigates the formation of toroidal-shaped nuclei in columnar lyotropic chromonic liquid crystals, contrasting usually spherical shapes found in crystals and liquid crystal droplets.
- - The shape and thickness of these toroids are influenced by the concentrations of disodium cromoglycate (DSCG) and polyethylene glycol (PEG), with varying levels leading to different structural characteristics.
- - The diverse toroidal shapes can be explained by the interplay between bending elasticity and anisotropic interfacial tension within the materials.
Climate change is leading to an increase in severity, frequency, and distribution of harmful algal blooms across the globe. For many harmful algae species in eutrophic lakes, the formation of such blooms is controlled by three factors: the lake hydrodynamics, the vertical motility of the algae organisms, and the ability of the organisms to form colonies. Here, using the common cyanobacterium as an example, we develop a model that accounts for both vertical transport and colony dynamics.
View Article and Find Full Text PDFA phenomenological model for interfacial water near hydrophilic polymers.
J Phys Condens Matter
June 2022
We propose a minimalist phenomenological model for the 'interfacial water' phenomenon that occurs near hydrophilic polymeric surfaces. We achieve this by combining a Ginzburg-Landau approach with Maxwell's equations which leads us to a well-posed model providing a macroscopic interpretation of experimental observations. From the derived governing equations, we estimate the unknown parameters using experimental measurements from the literature.
View Article and Find Full Text PDFWe study the shear flow of active filaments confined in a thin channel for extensile and contractile fibers. We apply the Ericksen-Leslie equations of liquid crystal flow with an activity source term. The dimensionless form of this system includes the Ericksen, activity, and Reynolds numbers, together with the aspect ratio of the channel, as the main driving parameters.
View Article and Find Full Text PDFArticle Synopsis
- Bacteriophages store their long double-stranded DNA in a protein shell called a capsid, which has a hexagonal liquid crystalline structure affected by the capsid's electrochemistry.
- The study presents a model that connects the arrangement of DNA within these capsids to the types and concentrations of ions in the surrounding environment.
- By developing a computational method, researchers can simulate larger systems to analyze DNA bending, repulsion between DNA segments, and the electrochemical properties both inside and outside the capsid, with results aligning well with experimental and molecular dynamics data from smaller capsids.