Sending polarerized light through light fiber that is all jumbled up.

In summary, we discuss the propagation of laser light in a fiber optic cable, which may be jumbled up but with gentle twists and turns. We hypothesize that the light remains polarized in the x direction even after emerging from the cable, and this is confirmed by the symmetry of the fiber transitions. However, if the end of the fiber optic cable points in the x direction, the polarization of the light may change depending on the geometry of the fiber and the presence of stresses. Special polarisation maintaining fiber may be used to maintain a specific polarisation state.
  • #1
Spinnor
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Say we have laser light propagating in the +z direction and polarized in the x direction that then enters a fiber optic cable. Let the fiber optic cable, of some length, be quite jumbled up so that the light photons are guided in a crazy path, kind of like a jumbled up ball of string. Let the twisting and turning of the fiber cable be gental so that the light propagates forward with little or no reflection or attenuation. Let the light from the fiber optic cable reemerge propagating in the +z direction, is the light still polarized in the x direction?

Thanks for any help!
 
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  • #2
Does this reasoning answer my question in the affirmative?

Linear polarization in the x direction is equal amounts of left and right circularly polarized light with the proper phase choice? We expect the left and right components to propagate the same through the jumbled up optic fiber and thus when the laser light reemerges from the fiber it is still polarized in the x direction?

Is the above faulty reasoning? If so where did i go wrong?

Thanks for any help!
 
  • #3
Follow up question, what if the end of the fiber optic cable points on the x direction, what then is the polarization of the light?

Thanks for any help!
 
  • #4
I would expect that the polarization direction depends on the geometry of the fiber, based on the following reasoning:

Take a fiber with the transition +z -> +y, and light polarized in x-direction. Based on symmetry, I would expect that the polarization remains in x-direction.
Now add a second fiber with the transition +y -> +x. Again, based on symmetry, I would expect that the polarization follows the (x,y)-plane, and ends up as polarization in y-direction.
Now add a third fiber with the transition +x -> +z. Using the same argument as at the first fiber, I would expect a y-polarization at the end.

It is interesting that the result stays the same if the second process switches the polarization, as it would lead to a different third process, too.
 
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  • #5
The polarisation state of a light wave passing through normal optical fibre is essentially random. While a perfectly straight optical fibre, with no stresses, will not affect the polarisation state this is very unlikely. Usually stresses in the fibre cause small changes in the refractive index leading to changes in the polarisation state. You can, however, get polarisation maintaining fibre. This has stress added on purpose and has a repeatable effect on the polarisation.
 
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1. What is polarized light?

Polarized light is a type of light that vibrates in a single plane, as opposed to regular light which vibrates in all directions. This means that all the light waves are aligned in the same direction, giving it unique properties and uses.

2. How is light polarized?

Light can be polarized through various methods such as passing it through a polarizing filter or reflecting it off a surface at a specific angle. This causes the light waves to align in a single plane, resulting in polarized light.

3. What is light fiber?

Light fiber, also known as optical fiber, is a thin, flexible strand of glass or plastic that is used to transmit light signals. It works by reflecting light waves at specific angles and carrying them along the fiber without significant loss of intensity.

4. How does polarized light interact with jumbled up light fiber?

When polarized light is sent through jumbled up light fiber, the light waves will become scattered and lose their alignment. This can cause a decrease in the intensity of the light and distortion of the original polarized state.

5. What are the applications of sending polarized light through jumbled up light fiber?

One application of this is in telecommunications, where polarized light is used to transmit data through optical fibers. By sending polarized light through jumbled up fibers, the data can be encoded and decoded at the receiving end, allowing for secure communication. It is also used in medical imaging, astronomy, and other fields where precise and controlled light is needed.

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