Reflection

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Basic

Law of reflection (click to enlarge)


Reflection is the return by a surface of some of the light which falls on that surface. (Other parts get absorbed or refracted).

There are two main laws (called "Snell's Laws") that play a role in this:

  1. The angle of reflection of a ray (r) of light is equal to the ray of incidence (i).
  1. The incident ray (i), the reflected ray (r) and the normal (NO) all lie in the same plane.

The angle of incidence (ION) and the angle of reflection (NOR) are both measured by reference to an imaginary line called the normal (NO), which is perpendicular to the reflecting surface (HP), at the point of incidence (O). The point of incidence is the point at which the incident ray strikes the reflecting surface.

Understanding these basic principles are important in order to understand the many gemological terms that are used to describe optical effects caused by reflection.

Amongst those effects are:

Advanced

Brewster Angle

Brewster Angle

In 1812, Sir David Brewster (1781-1868) described a new phenomenon of light. He found that, when light falls on an optically denser object (like water) at a certain angle, the reflected component of the light will be completely polarized in the plane of the surface off which it reflects. In the case of water, it would be the horizontal plane.

He also observed that the angle of the refracted ray was at 90° to the reflected ray (at this specific angle).

This angle is named The Brewster Angle. It varies for every material, relating to the refractive index of the material.

When the refractive indices of both materials are known, one can calculate the Brewster angle for the reflective material.

<math>\arctan \theta_B = \frac{n_2}{n_1} </math> (where Θ B is the angle between the incident ray and the normal).
The latter makes it possible to use reflection as an aid for measuring the refractive index of polished stones.

As the reflected ray is completely polarized in the horizontal plane at that specific angle, one could insert a vertically oriented polarizing filter to block all the reflected light (similar to how sunglasses work). By measuring the angle of the incident light, at which point no light passes through the polarizing filter, one may calculate the refractive index. This is the principle of "The Brewster Angle Meter" developed by Peter Read.