Thermovibrationally Driven Ring-Shaped Particle Accumulations in Corner-Heated Cavities with the D2h Symmetry
Balagopal Manayil Santhosh, Marcello Lappa

TL;DR
This paper explores how heat and vibration create unique particle patterns in a cube-shaped container with specific symmetry.
Contribution
The study introduces a new thermal configuration with D2h symmetry to generate filamentary particle structures.
Findings
New filamentary particle structures emerge under D2h symmetry thermal conditions.
These structures differ from previously observed accumulation surfaces by being one-dimensional and either disjoint or intertwined.
Abstract
Over the last decade, numerical simulations and experiments have confirmed the existence of a novel class of vibrationally excited solid-particle attractors in cubic cavities containing a fluid in non-isothermal conditions. The diversity of emerging particle structures, in both morphology and multiplicity, depends strongly on the uni- or multi-directional nature of the imposed temperature gradients. The present study seeks to broaden this theoretical framework by further increasing the complexity of the thermal “information” coded along the external boundary of the fluid container. In particular, in place of the thermal inhomogeneities located in the center of otherwise uniformly cooled or heated walls, here, a cubic cavity with temperature boundary conditions satisfying the D2h (in Schoenflies notation) or “mmm” (in Hermann–Mauguin notation) symmetry is considered. This configuration,…
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Taxonomy
TopicsQuantum Electrodynamics and Casimir Effect · Quantum, superfluid, helium dynamics · Particle Dynamics in Fluid Flows
