The Possibility and Consequences of Electrons Orbiting Faster Than Light of An Element

Anthony Maccini

Abstract

Theoretically, if electrons in the orbit of an element’s atoms were to orbit faster than light, there might be emission of Cerenkov radiation, and that element propagates into the past. As it seems practically impossible to make electrons orbit the atoms in an element faster than light, one considers tunneling. It is known that electrons that tunnel, according to Gunter Nimtz, propagate faster than light. If one can achieve continuous tunneling of electrons through a superconducting quantum interference device (SQUID), faster than light might achieve this. But the properties of tunneling electrons become virtual particles, non-local, faster than light, and invisible would be magnified in a SQUID.

Keywords

SQUID; superconducting; electron; tunneling.

Cite This Article

Maccini, A. (2025). The Possibility and Consequences of Electrons Orbiting Faster Than Light of An Element. International Journal of Scientific Advances (IJSCIA), Volume 6| Issue 3: May-Jun 2025, Pages 590-592 URL: https://www.ijscia.com/wp-content/uploads/2025/06/Volume6-Issue3-May-Jun-No.896-590-592.pdf

Volume 6 | Issue 3: May – Jun 2025