Total reflection for perpendicular incidence

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Total reflection for perpendicular incidence

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Are there any materials, which give similar effects to total internal reflection, but for perpendicular incidence?

Here, by this phenomena I mean:

100% reflection for bulk medium,
no absorption (including no absorption inside material),
finite evanescence depth (even if very small).

I am asking, as some of my calculations gave this result. Yet, I am not sure whether this result is physical (i.e. can happen) or practical (i.e. there is a system exhibiting such phenomenon).

I does works that way for dielectric mirrors. I am curious if there are any "uniform" materials exhibiting such effect. By "uniform" I mean spatial period (or any kind of other structure) much, much smaller than (vacuum) wavelength.

(Obviously, it goes beyond refraction index, so please don't write it is not possible with a fixed n, because I know.)

asked Dec 4, 2014 in Theoretical Physics by Piotr Migdal (1,260 points) [ revision history ]
edited Dec 4, 2014 by Piotr Migdal

Do you really mean "internal"?

commented Dec 4, 2014 by Vladimir Kalitvianski (102 points) [ no revision ]

Reflection from metals will do or not?

commented Dec 4, 2014 by Vladimir Kalitvianski (102 points) [ no revision ]

I don't know in "internal" is the most fortunate word here. In any case I mean: exponential decay of the field in the medium (from which the reflection occurs) without any absorption. For metal - I was thinking about it. But AFAIR (I can be wrong) in metals reflection is due high absorption for transmission.

commented Dec 4, 2014 by Piotr Migdal (1,260 points) [ no revision ]

Then simply "reflection" would do.

In metals there are normal and anomalous skin effects with evanescent behavior.

commented Dec 4, 2014 by Vladimir Kalitvianski (102 points) [ no revision ]
edited Dec 4, 2014

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