By Ashwini Sakharkar 19 Oct, 2024

Collected at: https://www.techexplorist.com/electromagnetic-waves-help-solve-pdes-speed-light/91335/

In the domains of physics, mathematics, and engineering, partial differential equations (PDEs) play a crucial role in modeling a wide range of phenomena, from heat diffusion to particle motion and wave propagation. Although some PDEs can be solved analytically, many necessitate numerical methods, which can be both time-consuming and require substantial computational power.

To tackle these challenges, scientists have been exploring alternative computing paradigms, such as photonic computing.

Photonic computing harnesses light-matter interactions to carry out high-speed calculations. A recent study by Newcastle University, featured in Advanced Photonics Nexus, presents an innovative approach that uses electromagnetic (EM) waves to solve PDEs, specifically focusing on the Helmholtz wave equation.

The researchers devised a network of interconnected waveguides filled with dielectric inserts, effectively emulating the behavior of traditional circuit elements.

This groundbreaking metatronic network functions like a grid of T-circuits, offering precise control over the parameters of PDEs by adjusting the dimensions and permittivity of the dielectric inserts. It has the capability to solve various boundary value problems, including EM wave scattering and light focusing.

“We envision that these devices may be used to produce fast approximate solutions for various partial differential equations,” Dr. Victor Pacheco-Peña, corresponding author for the report, highlights the potential of these devices as computational accelerators.

He emphasized the significance of this research, highlighting its potential to revolutionize analog computing by efficiently solving complex equations.

Journal reference:

  1. Ross Glyn MacDonald, Alex Yakovlev, Victor Pacheco-Peña. Solving partial differential equations with waveguide-based metatronic networks. Advanced Photonics Nexus, 2024; DOI: 10.1117/1.APN.3.5.056007

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