Can light be synthetically created ?

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SUMMARY

The discussion centers on the feasibility of synthetically creating light by intersecting alternating electric and magnetic fields at right angles, both oscillating at frequencies corresponding to the visible spectrum. Participants highlight the challenges in generating such fields, particularly due to issues like hysteresis, noise, and reactance, which hinder circuitry capable of operating at visible light frequencies. Theoretical considerations suggest that while rotating a magnet and an electric dipole could produce the necessary fields, compatibility with Maxwell's equations remains uncertain.

PREREQUISITES
  • Understanding of electromagnetic theory, specifically Maxwell's equations.
  • Knowledge of alternating current (AC) circuits and their behavior at high frequencies.
  • Familiarity with the principles of antennas and electromagnetic wave generation.
  • Basic concepts of hysteresis and reactance in electrical systems.
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  • Research methods for generating high-frequency alternating electric and magnetic fields.
  • Explore the limitations of current antenna designs for visible light frequencies.
  • Study the implications of Maxwell's equations on electromagnetic field generation.
  • Investigate the principles of electromagnetic wave propagation and their applications in optics.
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Physicists, electrical engineers, and researchers interested in the theoretical and practical aspects of light generation and electromagnetic field manipulation.

shiveeshfoteda
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If I use two sources , one for alternating electric field ( frequency equal to the frequency of a wave in visible spectrum ) , one for alternating magnetic field (frequency equal to the frequency of a wave in visible spectrum ) and make them intersect each other at 90 degrees in mid air will i be able to see light in mid air ?
 
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shiveeshfoteda said:
If I use two sources , one for alternating electric field ( frequency equal to the frequency of a wave in visible spectrum ) , one for alternating magnetic field (frequency equal to the frequency of a wave in visible spectrum )
How would you make such fields?
 
You don't have to have the alternating electric field. In your antenna, the alternating electric field necessarily creates an alternating magnetic field.

Creating an antenna for lower frequency waves is not a problem, but as far as I know, no one has created any circuitry that oscillate with visible light frequency due to hysteresis, noise, and reactance problems.
 
i was thinking it to be a thought experiment , for example I'm rotating a magnet and an electric dipole (both kept at large distance ) , the axis of rotation of the magnet and the electric dipole is perpendicular to each other , and they are rotating with same angular frequency as the frequency of visible spectrum . So if i take a point in between these sources i'll be having an alternating electric field and an alternating magnetic field perpendicular to each other with frequency equivalent to the frequency of light .
 
shiveeshfoteda said:
for example I'm rotating a magnet
Rotating a magnet will produce an e-field as well as the b-field. That is how a generator works.

I don't know a way to produce the kinds of fields that you are talking about in the OP. I suspect that they are not compatible with Maxwell's equations, but I don't know for sure.
 

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