Publications by authors named "Ricardo Decca"
Article Synopsis
- The study presents temperature-controlled measurements of a single DPPC lipid bilayer using near-field scanning optical microscopy, focusing on effective retardance and acyl chain orientation.
- The results show significant changes in molecular orientation and birefringence at the main transition temperature (T_m ∼ 41°C), with shifts indicating the transition from a gel to a liquid state.
- The findings contribute to understanding the microconfigurations within the lipid bilayer during phase transitions, incorporating concepts from the Landau-Ginzburg theory of phase transitions in materials.
The Casimir force between bodies in vacuum can be understood as arising from their interaction with an infinite number of fluctuating electromagnetic quantum vacuum modes, resulting in a complex dependence on the shape and material of the interacting objects. Becoming dominant at small separations, the force has a significant role in nanomechanics and object manipulation at the nanoscale, leading to a considerable interest in identifying structures where the Casimir interaction behaves significantly different from the well-known attractive force between parallel plates. Here we experimentally demonstrate that by nanostructuring one of the interacting metal surfaces at scales below the plasma wavelength, an unexpected regime in the Casimir force can be observed.
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