Fibre Optic Questions: Understanding Cladding and Critical Angle

In summary, the use of a cladding with a lower refractive index than the core in fibre optics increases the critical angle due to the monotonous increase of the sine function. This allows for a smaller window of TIR and minimizes the amount of light that is refracted instead. The logical explanation for this is supported by the advantages of cladding in fibre optics as shown in the link provided. Additionally, understanding the mathematics behind it also demonstrates understanding of the logic behind it.
  • #1
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Hi, I have some fibre optics questions that I can't seem to get my head around.

How does providing a cladding of a refractive index slightly lower than the core increase the critical angle? I can do the mathematics to see that it does however is there a logical explanation.
Why is increasing the critical angle a good thing? Doesn't that mean that less light will undergo TIR and will be refracted instead?

If for example the critical angle was 20 deg then surely the incoming light could hit at a smaller angle and still undergo TIR, if the critical angle is higher then there is a smaller window for TIR?
 
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  • #2
For the critical angle between the glass core and the cladding material, sinθc=N(cladding)/N(glass). The sine function is monotonously increasing between 0 and π/2, so the cladding increases the critical angle with respect to no-cladding, when the sine of the critical angle would be 1/N(glass).
The advantages of cladding are shown here http://www.schoolphysics.co.uk/age16-19/Optics/Refraction/text/Fibre_optics/index.html

ehild
 
  • #3
Math is logic. If you can do the math than you do understand the logic.
 

Related to Fibre Optic Questions: Understanding Cladding and Critical Angle

1. What is a fibre optic cable?

A fibre optic cable is a type of cable made up of thin strands of glass or plastic that are used to transmit data and information using light. It is a high-speed communication technology that allows for faster and more reliable data transmission compared to traditional copper cables.

2. How does a fibre optic cable work?

A fibre optic cable works by transmitting data through the use of light pulses. These light pulses travel through the core of the cable, which is made of glass or plastic, and are reflected off the walls of the core, allowing the data to travel long distances without losing its strength. At the receiving end, the light pulses are converted back into electrical signals for decoding.

3. What are the advantages of using fibre optic cables?

There are several advantages to using fibre optic cables, including faster data transmission speeds, higher bandwidth capacity, and immunity to electromagnetic interference. Fibre optic cables are also much thinner and lighter than traditional copper cables, making them easier to install and maintain. Additionally, they have a longer lifespan and can transmit data over longer distances without signal loss.

4. What are some common applications of fibre optic technology?

Fibre optic technology is used in a variety of applications, including telecommunications, internet connectivity, cable television, and medical imaging. It is also commonly used in networking for data centers and has become increasingly popular in home and office networks due to its speed and reliability.

5. What are the potential limitations of fibre optic technology?

While fibre optic technology has many advantages, there are also some potential limitations to be aware of. These can include high installation costs, as well as the need for specialized equipment and trained personnel to maintain and repair the cables. Additionally, fibre optic cables can be susceptible to damage from bending or twisting, which can affect their performance and reliability.

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