Achieving asymmetry and trapping in diffusion with spatiotemporal metamaterials
Abstract
The process of diffusion is central to the ever increasing entropic state of the universe and is fundamental in many branches of science and engineering. Although non-reciprocal metamaterials are well developed for wave systems, the studies of diffusive metamaterials have been limited by their characteristic spatial inversion symmetry and time inversion antisymmetry. Here, we achieve large spatial asymmetric diffusion characteristics inside a metamaterial whose material parameters are space- and time-modulated. Inside such a spatiotemporal metamaterial, diffusion occurs as if the material had an intrinsic flow velocity, whose direction is dictated by the relative phase between the modulations of the conductivity and capacity. This creates dramatic out-of-equilibrium concentrations and depletions, which we demonstrate experimentally for the diffusion of electric charges in a one-dimensional electrical system composed of an array of space-time-modulated variable capacitors and switches. These results may offer exciting possibilities in various fields, including electronics, thermal management, chemical mixing, etc.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Jul 24, 2020
- Source ID
- 10.1038/s41467-020-17550-5
Entities
People
- Brian Edwards
- Miguel Camacho
- Nader Engheta
Organizations
- Office of Naval Research