How does the reflection of light at different angles affect polarization?

In summary, the conversation discusses the concept of polarization and how light waves are affected by polarizers and analyzers. The participants also mention the use of a lattice as a visualization tool and the concept of decomposing light waves into x and y components. The conversation also touches on the phenomenon of sunlight becoming linearly polarized when reflected from water.
  • #1
Maxo
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Homework Statement


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Homework Equations


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The Attempt at a Solution


I know that according to the Malus law formula, if the angle is 0 < θ < 90 then there is some transmission. But I need help understanding this physically. If we think of a polarizer/analyzer as a "lattice", i.e. kind of like this
vinyl-pool-fence.jpg
then after having passed through such, the light waves should only be in one direction, right? So how can it then matter what other direction the next lattice (analyzer) is?

Are we supposed to think of the light waves as components in x and y direction? In that case, wouldn't a pure y-direction wave have no x-component? Wouldn't that then happen if you put the polarizer so that it transmits in y direction only? But then it comes back to my original question, why would the direction of the analyzer matter, why wouldn't it only allow transmission when θ = 0?

Please help me understand this further. I understand a lattice is not a perfect visualization of it. What would be a possible better image/object to visualize polarization with than a lattice?
 

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  • #2
You have three elements in this set up.
The 1st Polarizer produces a wave with no x component.
The insert decomposes this y-vector into two components along the y' and x' directions and blocks one of them - say x'. The analyzer decomposes the y'-vector into components along the y and x directions and blocks the y component. Some light comes through.
Even though a y-vector has not x-component, a y-vector does have a y'-component and the y'-component does have an x-component.
 
  • #3
dauto said:
You have three elements in this set up.
The 1st Polarizer produces a wave with no x component.
The insert decomposes this y-vector into two components along the y' and x' directions and blocks one of them - say x'. The analyzer decomposes the y'-vector into components along the y and x directions and blocks the y component. Some light comes through.
Even though a y-vector has not x-component, a y-vector does have a y'-component and the y'-component does have an x-component.

What do you mean with x' y'? How are they related to x y?

How can it be visualized what happends with the light as it goes through the filter? Since a "lattice" is not correct, what would be a correct analogy?
 
  • #4
The picture you provided in the OP has a good visualization. y' is the axis of the insert which is rotated an angle θ from the axis of the 1st polarizer. The OP's picture has everything you need to see what's happening.
 
  • #5
Do you understand the word analogy?
 
  • #6
The fence IS a good analogy.
 
  • #7
Why does sunlight get linearly polarized when reflected from water?
 
  • #8
Maxo said:
Why does sunlight get linearly polarized when reflected from water?

If you look at Fresnel equations for the reflection of light you will see that the two possible polarizations have different reflectances which leads to partially polarized light. for a specific angle called Brewster's angle the polarization is complete.
 

Related to How does the reflection of light at different angles affect polarization?

What is polarization?

Polarization is the process of separating or dividing a group or society into opposing factions or groups with contrasting beliefs, values, and ideologies.

How does polarization occur?

Polarization can occur through various factors such as political, social, economic, and cultural differences. It can also be influenced by media, education, and personal experiences.

What are the consequences of polarization?

Polarization can lead to increased division and conflict within a society, hindering progress and cooperation. It can also result in a lack of understanding and empathy towards different perspectives.

What are the potential benefits of understanding polarization?

Understanding polarization can help individuals and societies recognize and address the root causes of division and work towards finding common ground and solutions. It can also promote tolerance and respect for diverse opinions and beliefs.

How can we combat polarization?

We can combat polarization by actively seeking out and listening to diverse perspectives, engaging in respectful and open dialogue, and promoting empathy and understanding towards others. It is also important to critically evaluate information and avoid falling into echo chambers or polarizing rhetoric.

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