Phase shift upon reflection of electromagnetic wave

AI Thread Summary
The discussion centers on the phenomenon of phase shift during the reflection of electromagnetic waves at a boundary. The main inquiry is about what occurs at the point of reflection when a wave is inverted, questioning whether this results in a discontinuity in the electric field. It is suggested that if a sudden phase shift occurs, the reflection point must oscillate within a half-wavelength interval, which raises concerns regarding compatibility with longer wavelengths. The participant emphasizes that they seek a conceptual explanation rather than a mathematical restatement of known principles. Overall, the conversation highlights a gap in understanding the physical implications of phase shifts in wave optics.
freddyfish
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I have indirectly sought the answer to this for some time (since I studied an introductory course in optics 'long' ago), but nobody has been able to give a satisfactory answer, and I have not been able to find the exact answer on the Internet either.

My question is about optics, and more precise about reflections at a boundary. I am familiar with the conditions for phase shift upon reflection etc., and the only thing I wonder is:

When a wave (since we are talking about the wave interpretation of light) is inverted upon reflection, what happens exactly at the point of reflection? If there is a sudden phase shift, then there must be a discontinuity in the electric field of the wave, unless of course it is reflected at the point of its node at all times. This would imply that the point of reflection is moving back and forth in an interval of length λ/2, which would not go well with the electromagnetic waves with longer wavelengths.

I have seen the mathematical expression for this, so a restatement of that would not answer my question properly, unforunately.

Thanks :)
 
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freddyfish said:
I have indirectly sought the answer to this for some time (since I studied an introductory course in optics 'long' ago), but nobody has been able to give a satisfactory answer, and I have not been able to find the exact answer on the Internet either.

My question is about optics, and more precise about reflections at a boundary. I am familiar with the conditions for phase shift upon reflection etc., and the only thing I wonder is:

When a wave (since we are talking about the wave interpretation of light) is inverted upon reflection, what happens exactly at the point of reflection? If there is a sudden phase shift, then there must be a discontinuity in the electric field of the wave, unless of course it is reflected at the point of its node at all times. This would imply that the point of reflection is moving back and forth in an interval of length λ/2, which would not go well with the electromagnetic waves with longer wavelengths.

I have seen the mathematical expression for this, so a restatement of that would not answer my question properly, unforunately.

Thanks :)

Hey,
See here: http://physics.stackexchange.com/qu...es-on-reflection-from-optically-denser-medium
http://www.google.co.in/#hl=en&q=+s...44,d.bmk&fp=d3f50e1c809abade&biw=1024&bih=653
 

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