As a child, my siblings and I had come to know December as the month for Christmas decorations. So, once it was December 1st, we would pull out the bags and cartons of Christmas decorations and trees. Oh no, we used plastic trees! Among these things, my favourite was a silvery-white table-top tree. It had an electrical connection which when plugged would shine tiny light at the tip of the tiny strands. This is no need to describe the whole thing, I have a picture below.
Actually it was a little bit more like the image below. It was easy to see that the source of light was the disk-shaped plastic that also functioned as the base but what fascinated me was was how the light was transported from there to the tip of each tiny strand while the remaining length of the strand remained almost opaque.
It turned out that the tiny strands are fibres made out of drawing glass or silica and covered or clad with another material with different reflective properties from the fibres. Together, this is called Optical Fibre or Optical Fiber depending on which country you are in.
A Reminder
The thing about physics is that once you learn a concept, you are not allowed to forget because as sure as rain, whatever concept you learned in the past would find a way to sneak up on you when you least expect it. It is this interconnection of phenomenon that gives us the reality we experience as life. So, may I remind you of electromagnetic waves and the part they play in communications engineering? We were told that electromagnetic (EM) waves are propagated due to interactions between electrical and magnetic fields generated by making electric conductors vibrate in a certain way, at certain speeds.
Visible light is one of these EM waves. Of course, this means that light would have some of the properties as other EM waves like radio waves, microwave and infra-red. We know from basic radio broadcasting discussed here that we can embed audio signals (information) on radio waves and broadcast the signal to radio sets tuned to specific frequencies. It turns out that light waves can also be used to transport information at high speeds through Optical Fibres. Before we have a detailed look at optical fibres and how they serve as a channel in a communication network, I would like to show an overview of the different media that are available for use in communication networks to transport information.
Optical Fibre
A friend of mine told me that my posts are often too long. Well, dear friend, explaining these things in lay terms takes a lot of explaining.
Optical Fibre is a medium that transmits information by sending optical signals down the strands of extremely pure drawing glass or plastic fiber. The light passes through the center of the fibre called the core, which is surrounded by an optical material called the cladding. The cladding is able to trap the light in the core based on the concept of Total Internal Reflection. [1]
Total Internal Reflection
Imagine for a moment, that you are standing by a pool side with a pole with which to measure the depth of the pool of water. If you are at all serious about obtaining an accurate measurement, you would place the pole straight up. This means it would be perpendicular to the water surface or, in other words the pole would be at right angles(or 90 degrees) with the surface of the water. If you look at the portion of the pole inside the water, you would notice that it appears shorter or slightly displaced from the position where it ought to have been. This visual distortion describes the change in direction of light as it travels from one medium to another and it is known as Refraction. You would experience this distortion because the light coming from the part of the pole that is submerged would change direction at the interface between the water and the air.
Refraction happens when light passes from one medium to another medium with a different refractive index. Refractive index is a dimensionless quantity which describes how fast light propagates on a medium in comparison with the speed of propagation in vacuum and is mathematically defined as n = c/v where c is the speed of propagation of light in a vacuum, v is the speed of propagation of light in the medium and n. Not to get you too involved in math, but the implication of this mathematical relationship is that if a medium is said to have a refractive index of 1.33, it means that light is 1.33 times slower in that medium than it is in vacuum. Excellent.
In our image of Fig. 3, the blue medium (water) obviously has greater refractive index. We know this because when light moves from a medium with low refractive index to a medium with a higher refractive index, the light is refracted closer to the normal (or closer to the pole in our example). If however, light moves from a medium of higher refractive index to a medium of lower refractive index, the light ray is refracted away from the normal as shown in Fig. 4
Now, here is the meat of the gist: as we keep adjusting the angle at which the light within the medium with higher refractive index, making it larger each time, the refracted ray keeps getting farther and farther away from the normal until we reach the critical angle. The critical angle is the angle of propagation at which the refracted ray is perpendicular or 90 degrees to the normal. In other words, at critical angle, the refracted ray lies along the boundary between the two media. What happens if we exceed the critical angle?
Well, once we exceed the critical angle, there would no longer be any refracted ray to speak of because the refracted ray of old now exists inside the medium with higher refractive index (water, in Fig. 4). This situation of things is called Total Internal Reflection and it exactly what happens to light propagated in an Optical Fibre. In the case of optical fibre, the the refractive index of the core is higher than the refractive index of the cladding.
Uses, Applications, Advantages of Optical Fibres and a Few Final Words
The exact technology or means by which data is embedded in the light that bounces down the optical fibre was deliberately missed from this discussion for the sake of brevity. While the whole process of propagating light in an optical fibre seems like a cool trick on its own, it turns out that the technology has found a large number of applications.
Other Uses for Optical Fibre
Optical fibre technology, apart from its obvious use as a transmission medium in communication networks, other technologies that use it include:
- Computer networks, because of the large amounts of data it is capable of transmitting per second, less attenuation achieved from years of improvement of the technology, and no interference unlike traditional twisted pair cables
- Broadcasting
- Medical scanning (fibroscopy which is a kind of endoscopy), and;
- Military equipment used for remote sensing.
I hope this has been informative for you. Thank you for visiting my blog.
Unless referenced to a source, images are original images.
References
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Great post @churchboy. I live in South Africa and we are moving to a house with access to fibre in a month's time. I can't wait! And now I understand it better! Thank you. @reonlouw
I totally agree. Almost everything we were thought in physics has an application in our everyday life.
Well said dear.
Many thanks @gee1. So wonderful to see you here. I am sure school work isn't letting up. You're awesome.
Thanks dear. It's been stressful around here but I'm pushing.
Well done.
Nice post @churchboy. I've always being interested in fiber optics!
Thank you for stopping by. I hope you're having a great day.
Much appreciated. Have a wonderful day as well!!
nailed it my guy!! I remember physics, but not as a good memory hahah one of the toughest classes that I had to take in my collegiate career (mainly bc my professor would never provide examples using numbers.. only variables). Soooo i never went to class and utilized the free tutoring services on my campus. Man oh man how I do not miss physics lol very intellectually sound post here, thoroughly enjoyed as usual @churchboy
Hahahaha. I understand what you mean. Too many variables can make one lose interest easily. If my explanation of the concepts are any good, it must be because I explained them in a way I would understand them because, believe you me, I had difficulty in Physics too. I hope you're having a great day, man. Thanks for your comments, they encourage me.
I used to wonder what those seemingly empty tubes that are buried along the road are.
Are they optical fibres?
I have heard of optical fibres before but haven't really considered looking into it, i guess today is the day to do so.
Great post!
Well, I should have mentioned those black cables being laid underground by mobile carriers. They are indeed optical fibres clad with thick black rubber insulators. Thank you for visiting my blog. Steem on.
Oh, now that explains a lot.
One more thing; your posts are not too long, rather they contain a lot of information and are always a good read.
Thank you
Now, you are spoiling me. Thanks a lot and I appreciate you being here more than you know.
😁
I am really thankful to whoever invented the Optical Fibre as a means to transmit huge information from one place to another. If not for the invention, we would be using broandband internet or dial-ups because I am now using 1 Gbps Fibre Broadband.
Technology had improved by leaps and bounds since then. Your article had shown the capability of the optical fibre and its users. Upvoted automatically!
Yes, with optical fibre, we can do more faster than before. Your consistency on visiting my blog and supporting is only second to steemstem and I am grateful. But steemstem is not a human being so you're still number one. I hope things are getting better down there in Singapore. Stay awesome, my friend.
Thanks man! Because the subject you write is related to one that I'm passionate about and helps me in refreshing my memories. I'm worried about the future that I might want to write about the relevant topics and I might be plagiarised.
Haha! Anyways, you have my back although I'm still new here. Now, I'm focusing on writing about my life so we will not cross paths for now. I'm also experimenting with bid bot such as @buildawhale and I'm using only once a week to not abuse the system and to get visibility. My blog had some visibility since joining #teamsingapore since one of the members invite me to their facebook page.
I will stay awesome, my friend!
I'm glad things are working out for you. And hey, don't worry about plagiarism. You can write what you are passionate about without plagiarising someone. Plus you can use smallseotools.com to check for plagiarism before posting. All the best, my good friend.
I like how you made the parallel with your childhood's memories of Christmas decoration and what the optic fiber could actually be used for. This example will make me remember it too.
P.s. Maybe your posts are long, but they are worth the time!
Oh, thank you for your kind comments. As a child, I always wondered what exactly that piece of electronic equipment was used for except for lights during Christmas. I could not imagine that someone would go through the trouble of making the globe silver base and all those tiny strands just to make light for Christmas. It turns out that's what someone did. I was mesmerised by the tiny tips of light and the mechanism for transporting the light from the globe to the tip.
I was reviewing optical fibre when I saw that the strands were somewhat similar to the one we had a children. I search deeper and found that they are one and the same material. I just had to begin with that.
Thank you for finding my posts worth the read.
With fiber we can make fast and stability connections, this good article dude!
Keep post @churchboy
Thanks a lot @suhaily for making out time to visit my blog.
This post has been upvoted for free by @microbot with 0.1%!
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yeah. this is awesome my boss @churchboy
Thank you bros.
Welcome boss!
Another excellent presentation !
Thanks @churchboy
Thank you @khufu
Well written! Fibre has interesting applications, especially in voice and Data communications. I remember when we were paying heavily for voice and Data in Nigeria and with less quality of what we have today. The introduction of fibre by GSM compaines into their networks greatly improved communication.