Top 15 Lightning Energy Utilization Methods: The Future Energy Revolution Depends on It

6. Lightning-Enhanced Superconductivity

This novel method investigates the induction or enhancement of superconductivity in some materials by means of the strong electromagnetic fields of lightning If superconductors—materials with zero resistance—could be developed to operate at greater temperatures and in more useful settings, they would transform energy transmission and storage. Under controlled circumstances, the idea is to expose especially prepared materials to the electromagnetic pulse of a lightning strike. The strong, transient energy burst may change the electron behaviour or structure of the material, so producing superconducting characteristics or strengthening already present superconductivity. Although highly experimental, this approach may produce room-temperature superconductors, which would have broad consequences for energy efficiency and storage. Developing materials that can endure the lightning hit while still benefiting from its effects and building systems to regularly produce the intended results present difficulties. This is a really multidisciplinary effort since research in this field crosses with materials science, quantum physics, and electrical engineering.