Tracing back an electromagnetic wave to its source

In summary: This is a well-known mathematical procedure.In summary, the question is whether it is possible to determine the type of charge/current system that creates a wave in a vacuum, given a solution to Maxwell's equations and knowledge of the fields on a closed surface surrounding the source. This can be achieved through a mathematical procedure known as finding an equivalent multipole source. However, more information is needed, such as the nature of the boundary conditions and the relative size of the electromagnetic wavelengths to any confined space.
  • #1
andresB
626
374
Suppose you have a solution to the Maxwell's equations in vacuum, and now you want to find what kind of charge/current system create the wave in the first place, can this be done?
 
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  • #2
andresB said:
Suppose you have a solution to the Maxwell's equations in vacuum, and now you want to find what kind of charge/current system create the wave in the first place, can this be done?

You have not given sufficient information. All you've given is that the medium is a vacuum. You have not described the boundary conditions, and the relative size of the EM wavelengths to any confined space (i.e. if this is in a waveguide).

Zz.
 
  • #3
I only have a vector function E and a vector function B that satisfy all the source-free Maxwell's equations.
 
  • #4
And if that is not enough, then how much more information is required?
 
  • #5
If it is source-free/vacuum then by definition there are no charges or currents.
 
  • #6
andresB said:
And if that is not enough, then how much more information is required?

I've just told you! The nature of the boundary conditions! Are these E and B fields solved in a waveguide? In free space? And if there is a boundary, what kind of a boundary is it?

For example, if you are given a standing wave in a waveguide, then I don't see how you can have the ability to trace where the "source" is.

Zz.
 
  • #7
If you know the fields everywhere on a closed surface that surrounds the source, then you can solve for an equivalent multipole source that produces the same fields as the real source.
 

Related to Tracing back an electromagnetic wave to its source

1. What is an electromagnetic wave?

An electromagnetic wave is a type of energy that is created by the movement of electrically charged particles. It is made up of both electric and magnetic fields that oscillate at right angles to one another as it travels through space.

2. How can an electromagnetic wave be traced back to its source?

An electromagnetic wave can be traced back to its source by using the principles of wave propagation and the properties of the electromagnetic spectrum. By analyzing the frequency, wavelength, and direction of the wave, scientists can determine its origin.

3. What tools are used to trace back an electromagnetic wave?

Scientists use various tools such as telescopes, spectrometers, and radio receivers to trace back electromagnetic waves. These instruments help to detect and analyze the properties of the wave, which can provide valuable information about its source.

4. Can an electromagnetic wave be traced back to its source in real-time?

Yes, it is possible to trace back an electromagnetic wave to its source in real-time. This is often done through the use of satellite technology, where data is collected and analyzed in real-time to track the source of the wave.

5. Why is tracing back electromagnetic waves important?

Tracing back electromagnetic waves is important for understanding the universe and the objects within it. It allows us to gather information about distant objects and events, such as stars, galaxies, and even the early stages of the universe. It also has practical applications in fields such as astronomy, communication, and navigation.

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