Does light reflect if incident exactly at critical angle ?

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Discussion Overview

The discussion revolves around the behavior of light at the critical angle when it encounters a boundary between two media. Participants explore whether light is reflected or transmitted along the media boundary at this angle, considering implications for classical physics principles such as reversibility.

Discussion Character

  • Debate/contested
  • Technical explanation
  • Conceptual clarification

Main Points Raised

  • Some participants argue that textbooks claim light incident at the critical angle is transmitted along the boundary, but this raises questions about the principle of reversibility in classical physics.
  • Others suggest that the concept of a geometrically perfect plane surface is an idealization, and real boundaries do not exist in such a manner.
  • One participant emphasizes that light should be considered as a wave, indicating that the wave nature of light means it interacts with all points on the surface simultaneously, thus negating the need for a "decision" to refract.
  • A later reply states that at the critical angle, reflectivity is 100% and transmissivity is 0%, asserting that no light is transmitted along the surface, only reflected.
  • Another participant mentions the mathematical expressions for reflection and transmission, suggesting that examining these can clarify the behavior of light at the critical angle.

Areas of Agreement / Disagreement

Participants express differing views on whether light is reflected or transmitted at the critical angle, with no consensus reached. Some uphold the idea of total reflection, while others challenge the assumptions underlying these claims.

Contextual Notes

Limitations include the dependence on idealized models of light behavior and the assumptions regarding the nature of boundaries between media. The discussion does not resolve the mathematical implications of reflection and transmission coefficients at the critical angle.

Murtuza Tipu
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A lot of textbooks and exam boards claim that light incident at exactly the critical angle is transmitted along the media boundary (i.e. at right-angles to the normal), but this seems to violate the principle of reversibility in classical physics. How would a photon or ray traveling in the reverse direction "know" when to enter the higher refracting medium? It can't know, so I conclude that such light is simply reflected?

Is this correct?
 
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Unless your textbooks and exam boards don't believe in the existence of atoms, a boundary which is a geometrically perfect plane surface doesn't exist.

The general idea of what "light incident at exactly the critical angle is transmitted along the media boundary" means is clear enough, but don't confuse a simple mathematical model with reality.
 
can you explain me what exactly it is
 
It's a good question, but one that classical optics has covered I think.

Ray approximations are useful, but don't forget that light is ultimately a wave; and in the wave picture, the plane-wave components are completely non-localized.

In other words, light incident upon a surface with some critical angle, will be incident at that angle on ALL points on the surface. Thus there is no need for the time-reversed wave to "decide" a position from which to refract back out into space.

Claude.
 
Murtuza Tipu said:
A lot of textbooks and exam boards claim that light incident at exactly the critical angle is transmitted along the media boundary (i.e. at right-angles to the normal), but this seems to violate the principle of reversibility in classical physics. How would a photon or ray traveling in the reverse direction "know" when to enter the higher refracting medium? It can't know, so I conclude that such light is simply reflected?

Is this correct?
Yes and no.

No because, at the critical angle, the reflectivity is 100% and transmissivity is 0%. So there is no light transmitted along the surface, it is completely reflected.

And yes, because to reverse the situation, you would have a wave coming from the direction of the reflected beam, which is also at the critical angle.

You can look into the math by looking at the expressions for reflection and transmission, referred to as r and t at this link:
http://hyperphysics.phy-astr.gsu.edu/hbase/phyopt/freseq.html

At the critical angle, the transmitted angle θt is 90°, so you can work out what happens to r and t (at website linked above) in that case.
 

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