Optical media

Optical Media

What is Optical Media?:

Optical media is a form of transmission media. It is a material through which electromagnetic waves pass through. Every optical medium has its own refractive index due to its different optical densities.

What Happens in an Optical Medium during Transmission?:

As an electromagnetic wave moves through vacuum, it travels at a speed of 3.00 x 108 m/s (the speed of light). Once the wave hits particles at the surface of the medium, energy is absorbed and the electrons begin to vibrate. If the energy of the electromagnetic wave does not match the vibrational frequency of the electron, the energy is re-emitted in the form of an electromagnetic wave with the same frequency and speed (speed of light) through the interatomic space of the medium. This process repeats itself when this new wave hits the next particle that comes in its way. This is basically a cycle of absorption and re-emission that continues throughout the medium until the wave reaches the other ‘outer’ surface of the medium. Despite the fact that the speed of the wave between the particles is the same as that of the speed in vacuum, the medium slows down the process in which the energy is transported from one end of the medium to the other. This is due to the time involved in absorption and reemission. Hence the net speed of the electromagnetic wave is less in the medium than in vacuum.

'''Optical Density : ''' Optical density of a medium is not the same as its physical density. Optical density refers to the degree to which a medium manages to slow down the wave that is transmitted through it. In other words, optical density describes the slow tendency of particles to absorb energy and maintain it in the form of vibrating electrons, before re-emitting it in the form of an electromagnetic wave. Thus the higher the optical density of a material, the slower a wave passes through. One key indicator of optical density includes the value of the ‘refraction index’, indicating how much slower the electromagnetic wave passes through the medium with respect to its speed in vacuum (3.00 x 108 m/s).

An optically rarer medium is one that has lower optical density and therefore causes the electromagnetic wave to pass through faster than in the medium it moved through before. Moreover, when an electromagnetic wave passes through an optically rarer medium, it bends more away from the normal.

An optically denser medium is one that has higher optical density, thus slowing down the speed of the wave that passes through. Furthermore, as a wave passes through an optically dense medium the ray bends more towards the normal. (The process in which the ray changes direction is called refraction.)

Sources:

Henderson, Tom. “Optical Density and Light Speed.” Optical Density and Light Speed. N.p., n.d. Web. 08 Dec. 2013

“Laws of Refraction in Different Mediums.” Laws of Refraction in Different Mediums. NCS Pearson, n.d. Web. 08. Dec. 2013. .