Alteration of Electromagnetic Wavelengths by Reciprocation Between Moving Carriages

Oren Aharon

CTO Duma Optronics, Israel

*Corresponding Author: Oren Aharon, CTO Duma Optronics, Israel.

Received: March 08, 2023; Published: April 28, 2023

Abstract

This article discusses a device and a method for changing the wavelength of an electromagnetic or any other source with wavelength propagation characteristics.

A wavelength may be altered by reciprocating the original beam between two moving carriages. The device consists of two carriages that can move in either direction along a line and an electromagnetic beam reciprocating in between. A reflective element mounted on each carriage produces the reciprocation effect. The following discussion explores a method of changing the wavelength of a beam by reciprocation between reflective moving carriages. Each time the beam is reflected, its wavelength will change. The reflected beam will have a different wavelength each time it rebounds from a moving reflective surface. The amount of change for each reflection is according to what is commonly known as Doppler effect.

Utilization of such a device or thought experiment could affect many aspects of modern physics in several areas such as:

• Continuous change in the wavelength of a laser or electromagnetic beam.
• Delivering energy from a remote source for propulsion purposes.
• Direct conversion of mechanical energy into light energy.

This article will explore the theory and applications of electromagnetic wavelength changes across a wide, almost infinite bandwidth. It also discusses actively increasing or decreasing the beams' energy by mechanical movement of reflective elements.

Keywords:Wavelengths; Carriages; Yielding

References

1. Aleksandar Gjurchinovski. Department of Physics, Faculty of Natural Sciences and Mathematics, Sts. Cyril and Methodius University P. O. Box 162, 1000 Skopje, Macedonia Technion University in Israel.

Citation

Citation: Oren Aharon. “Alteration of Electromagnetic Wavelengths by Reciprocation Between Moving Carriages". Acta Scientific Applied Physics 3.5 (2023): 21-25.

Copyright

Copyright: © 2023 Oren Aharon. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.