Reflection of light - the physics of a mirror

AI Thread Summary
Reflection of light occurs at an interface that is smooth at the wavelength scale, with smoother surfaces like silver reflecting light more effectively than rougher materials like wood. The electrical properties of the materials also play a crucial role; silver, being a better conductor, allows electric fields to penetrate less deeply than in wood, enhancing reflection. This principle applies not only to light waves but also to other types of waves, such as sound. The discussion emphasizes that the effectiveness of reflection is determined by both surface smoothness and material conductivity. Understanding these factors is essential for applications in optics and laser technology.
Tachyonie
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How does reflecting of a light works? In physics people keep talking about mirrors in lasers and optics, etc. but how does mirror works at sub-atomic level? Does the light wave simply excite the electron which then sends identical wave in opposite direction? Or does it simply bumps off a particle? Can mirror be heated by a laser?
 
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Tachyonie said:
How does reflecting of a light works? In physics people keep talking about mirrors in lasers and optics, etc. but how does mirror works at sub-atomic level? Does the light wave simply excite the electron which then sends identical wave in opposite direction? Or does it simply bumps off a particle? Can mirror be heated by a laser?
A mirror doesn't work at a sub-atomic level. Reflection is a type of wave behavior, and it only occurs when you have an interface that is smooth at the scale of a wavelength.
 
So why does silver object reflect the light more clearly than a wood for example.
 
Tachyonie said:
So why does silver object reflect the light more clearly than a wood for example.
There are two factors here.

First, the smoothness of the surface at the level of a wavelength, a silver object is smoother than a wood object. It would be very difficult to smooth the wood to the same level without adding some sort of polishing agent, but if you made the silver rough like the wood it would not reflect as well as a smooth mirror. But it would still reflect better than the wood. (The same thing happens acoustically, a smooth rock wall makes a better echo than a jumble of rocks.)

Second, the electrical properties. Silver is a much better conductor than wood. This means that E-fields can go much deeper in wood than in silver. In this sense (the ability to conduct and support E-fields) wood is much more like air than silver. Whenever two media are similar in terms of their wave properties you get less reflection and more absorption or transmission. (The same thing happens acoustically, a rock wall makes a better echo than a soft padded wall.)

These are general features of wave behavior, and not specifically limited to light waves.
 

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