Oren Aharon
CTO Duma Optronics, Israel
*Corresponding Author: Oren Aharon, CTO Duma Optronics, Israel.
Received: March 08, 2023; Published: April 28, 2023
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.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
Citation: Oren Aharon. “Alteration of Electromagnetic Wavelengths by Reciprocation Between Moving Carriages". Acta Scientific Applied Physics 3.5 (2023): 21-25.
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.