Mario Feingold

TL;DR: An intrinsic helicity of FtsZ filaments with more than one direction of curvature is suggested, supporting earlier hypotheses and experimental evidence and suggesting an intrinsic helical component to both curvature and polarity.

TL;DR: In this paper, the authors make a comprehensive study of the first model of an experimentally realizable flow to exhibit this resonance-induced dispersion: biaxial unsteady spherical Couette flow is a three-dimensional incompressible laminar flow with periodic time dependence derived analytically from the Navier-Stokes equations in the low Reynolds number limit.

TL;DR: A novel random-matrix ensemble is introduced which mimics the global structure inherent in the Hamiltonian matrices of autonomous, ergodic systems, and is in a regime with Wigner for systems with more than two freedoms.

TL;DR: In this article, the authors make a comprehensive study of the first model of an experimentally realizable flow to exhibit this resonance-induced dispersion: biaxial unsteady spherical Couette flow is a three-dimensional incompressible laminar flow with periodic time dependence derived analytically from the Navier-Stokes equations in the low-Reynolds number limit.