Electromagnetic Scattering Laws in Weyl Systems

Abstract

Wavelength determines the length scale of the cross section when electromagnetic waves are scattered by an electrically small object. The cross section diverges for resonant scattering, and diminishes for non-resonant scattering, when wavelength approaches infinity. This scattering law explains the colour of the sky as well as the strength of a mobile phone signal. We show that such wavelength scaling comes from the conical dispersion of free space at zero frequency. Emerging Weyl systems, offering similar dispersion at non-zero frequencies, lead to new laws of electromagnetic scattering that allow cross sections to be decoupled from the wavelength limit. Diverging and diminishing cross sections can be realized at any target wavelength in a Weyl system, providing the ability to tailor the strength of wave matter interactions for radiofrequency and optical applications.

Open PDF

Document Details

Document Type
Technical Report
Publication Date
Nov 09, 2017
Accession Number
AD1055360

Entities

People

  • Jian Zi
  • Lei Shi
  • Lei Ying
  • Ling Lu
  • Ming Zhou
  • Zongfu Yu

Tags

DTIC Thesaurus Topics

  • Band Structures
  • Condensed Matter Physics
  • Crystals
  • Dipole Antennas
  • Dispersion Relations
  • Electromagnetic Scattering
  • Energy Bands
  • Frequency
  • Mobile Phones
  • Photonic Crystals
  • Physics
  • Rayleigh Scattering
  • Resonant Frequency
  • Scattering
  • Scattering Cross Sections
  • Simulations
  • Three Dimensional

Fields of Study

  • Physics

Readers

  • Plasma Physics / Magnetohydrodynamics
  • Quantum Dot Semiconductor Device Photonics and Graphene Optoelectronic Materials and THz Physics.

Technology Areas

  • Space