Optical Fiber

Definition: An optical fiber is a thin flexible strand made up of glass(silica) or plastic that is used for transmitting optical (light) signals. Usually, the diameter of the optical fiber is more as compared to human hair.

More specifically, we can say that it is a waveguide that has the ability to transmit electromagnetic waves (in the form of light) at optical frequencies.

Structure of optical fiber

An optical fiber is basically a combination of core and cladding. Here, the core is a cylindrical dielectric composed of glass, through which light propagates and it is enclosed in a plastic cladding.

The figure below shows the structure of an optical fiber:optical fiber

The whole assembly is surrounded by an elastic jacket in order to protect the fiber.

It is noteworthy in the case of optical fibers that cladding does not participate in lightwave transmission as light only propagates through the core. But, in order to reduce the signal losses due to scattering, an optical fiber is necessarily a combination of the core as well as cladding.

The optical fiber is composed in such a way that the core refractive index must be more as compared to the cladding.

Propagation of light ray through an Optical Fiber

As we know that an optical fiber allows propagation of the signal in the form of light (i.e., photons). Now the question arises how light propagates through an optical fiber?

The answer to the above question is total internal reflection.

When light is allowed to transmit through an optical fiber then it travels through the core only, by experiencing continuous reflections from the cladding. These reflections are nothing but total internal reflections.

As we have already discussed in Total Internal Reflection, that it only occurs when light incident from a denser to a rarer medium with the angle of incidence more than the critical angle.

With such an angle of incidence, light propagates through the core by making successive reflections rather being refracted at the cladding.

As the core is a cylinder with a smaller diameter thus, an only small reflection of the light ray will take place and hence this causes the incident angle to be definitely greater than the critical angle.

Modes of Propagation in an optical fiber

When light travels along the fiber then it is obvious that will transmit down the core by taking either single or multiple paths. So basically modes are nothing but the number of paths a light ray takes during propagation along the fiber.

There exist basically two modes of propagation through an optical fiber:modes in optical fiber

  • Single-mode fiber: In single mode fiber the light ray is propagated along the fiber only by taking single (one) path.

So, due to the transmission of the wave due to only one path, the level of signal distortion at the time of transmission is also reduced. This is so because light rays do not transmit through multiple paths hence fidelity of signal at a longer distance is also maintained.

As the diameter of the core is small thus it requires a sharp light beam for which majorly laser light source is utilized.

  • Multimode fiber: In multimode fiber, the core diameter is comparatively large as compared to that of the single mode fiber. As here, the fiber allows light ray propagation through multiple paths inside the core.

Here, the chances of signal dispersion and attenuation are more than that of single-mode fiber. At the same time, the broader core diameter permits several propagating paths for the light waves.

What are glass fibers?

Glass is basically an amorphous solid that is generally hard, transparent and brittle in nature. It is composed by melting and quenching several materials. Glass is a material that does not hold a well-defined molecular structure rather it has an arbitrary arrangement of molecules.

Let us have a look at the tabular representation of glass forming substance:

table for glass fabrication components

Glass exhibits a special characteristic, that if the composition of the material is changed, then the properties of the material also varies.

Advantages of Optical fiber

  1. Lightwave transmission through an optical fiber enables distortion immune signal propagation.
  2. Optical fibers permits secured as well as long distance transmission.
  3. These cables serve for longer durations as compared to any other transmission cable.

Disadvantages of Optical fiber

  1. The installation, as well as maintenance cost of optical fibers, are somewhat large.
  2. Due to their fragile nature, it needs more protection from environmental conditions.
  3. Though less distortion can transmit a signal to large distances, that requires the use of repeaters at the time of signal transmission.

Usually, fibers are made from silica as it provides better operating characteristics.  Also, silica is chemically stable material and can be employed for use in the harsh environment also. The use of silica is more appropriate in case of optical communication.

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