Using PC Anywhere With Fiber Optics Connection

Symantec’s flagship product, the Symantec PC Anywhere, is a multiple platform handler solution that allows remote connections, remote access and multitudes of possibility. You can access virtually any PC having any of the recognized platforms: MAC OS®, Windows OS®, or even Linux OS® -or even Pocket PC remote systems. Just hook up anywhere and it enables a simple secure connection to all the involved desktop systems. That is mobility in a new genre. Plus using PC Anywhere with fiber optics connection, the combination will be simply short from a miracle.

You see, the name PC Anywhere is unembellished, it deservingly means that name. As long as there is internet, or even a network connection, you can access limitless numbers of PC without having to stand or directly control. And PC Anywhere doesn’t need pre installations for clients, as long as the PC is turned on and online, anyone can remotely access that said system. That gives a rather unique advantage to network businesses or those businesses that deal clients over the internet.

To get the most meat of Symantec PC Anywhere is of course getting the fastest internet service providers available, or else get the best topographical architecture on LAN applications. And any which choice, LAN or the internet, using PC Anywhere with fiber optics connection is simply getting most of the meat out of both innovations: Symantec’s PC Anywhere and fiber optics.

In fact, several remote assistance services offered online over the internet was a direct spin-off of Symantec’s PC Anywhere. Like the networkstreaming® Remote Support Solutions owned by a network engineer Joel Bomgaars. From the rudimentary door to door computer support service to online remote support service, Joel Bomgaars and the networkstreaming® Remote Support Solutions have grown to be a major remote desktop support solution in the United States, catering to a nationwide customers who have all the difficulties and problems attended as short as 10 seconds.

This opportunity could be yours too. If you have the flair of fixing technical issues, or just about any intangible and marketable skills, try Symantec’s PC Anywhere, and also try using PC Anywhere with fiber optics connection. The two are in separable, they work best together.

Are you ready for Symantec’s PC Anywhere? Here are the minimum system requirements and the link to get them.

System: 233MHz Processor and 64MB RAM; MAC®, Windows®, or Linux® OS, and 35MB HDD Space
Get it at: www.symantec.com

How Fiber Optics Is Made

It often surprising that we have several contrivances for everyday use yet ignorant by large on how they operate. That is highly true with regards to fiber optics; hitherto we are more predisposed of clunking faulty receivers who ‘garbled’ voices over the phone and not even considering how the fiber optic material may not attenuate signals as clearly.

Fiber optics is complicated science, and how fiber optics is made is much more so. Hopefully by explaining the fundamental concepts on how fiber optics is made readers could understand how the system truly works.

By the way, the term fiber optics is an often misused term. Fiber optics cannot be used to call the device employed; rightfully it is called optical fiber. Fiber optics instead is a branch of applied science predisposed in using and manipulating energy through an optical fiber. This clarification is needed to correct the oft used but context-wrong sentence. But for the sake of simplicity, we should continue using fiber optics as relevant to the device optical fiber.

How Fiber Optics is made with CVD?

So, how fiber optics is made? Fiber optics (optical fiber) is made through a series of chemical reactions. The first chemical process is a CVD (Chemical Vapor Deposition) where the preform ‘glass’ is the product of two gas substrates silicon tetrachloride (SiCl4) or germanium tetrachloride (GeCl4) mixed by precursor substance oxygen. Picture this; a hollow glass tube with ends injected with the reagents is slowly rotated horizontally over a lathe. As the mixture heats up, it allows chemical reaction to take place, and the tetrachloride reacts with oxygen releasing silicon or germanium to form silica or germania oxides which deposits and accumulates on the tube’s wall. After some time, a volume of the substance is accumulated until reaching a sufficient amount, forming the desired preform.

This resulting ‘preform’ glass is different from conventional glass in many ways, that it has several strictly regulated properties along the manufacturing guidelines. It is extremely pure, for instance, to meet refraction index* standard. It is even stated that your casual eye ‘looking through’ a mile thick of this ‘preform’ will still allow seeing the opposite end clearly.

There are three known methods for CVD, the Inside Vapor Deposition (as illustrated), Outside Vapor Deposition, and Vapor Axial Deposition. And regardless of the chemical deposition used, the preform is the byproduct by which glass fibers are drawn. The two reagent substances silicon tetrachloride (SiCl4) or germanium tetrachloride (GeCl4) is used in creating the preform.

Drawing Fibers from the Preform

However created, the preform ends up on a drawing tower device. This device is another furnace, but no chemical reaction takes place. What it does is melt the preform blank* starting from the tip. The exit for the melted glass is at the bottom, a precision hole where the liquid passes through, falling and cooling as it does, forming a continues, laser micrometer regulated diameter, and collects on a tractor spool.

*Refraction Index, in the optical fiber concept, is the phase velocity in which light can travel along the fiber

*preform material already checked for quality control.

Verizon Fiber Optics

The firm Verizon, www.verizon.com, provides many products and services may it be in the field of entertainment, wireless communication, Internet and many more.

When one talks about Verizon though, one would usually relate it to the famous Verizon FiOS Internet – or its fiber optics based Internet connectivity offer. With Verizon fiber optics, one’s Internet connection will be faster, and surfing the web will be at speeds of light – pretty much like how FiOS works – wherein the laser-generated light pulses travel through their fiber optics infrastructure.

One will no longer stare at the computer waiting for the websites to display properly, or waiting for the audio or video to play over the web, downloads will be at far better speeds, online gaming would be like no other – everything, and anything that relates to Internet connectivity and entertainment, Verizon fiber optics makes it possible with FiOS.

FiOS Internet service is all about a reliably fast Internet connection – and more. With one’s subscription, one will get nine e-mail accounts, 10 MB of personal web space, and technical support 24 hours a day, 7 days a week – isn’t this a great deal? One will also be able to have a home networking set-up for his computers, and comes with it the Internet security service features to protect these computers from viruses, spyware, and the like.

What do you think? Still not enough? How about playing music online from Rhapsody pre-programmed radio stations, or legally downloading free movies at Movielink for your own private viewing? All these are available with Verizon fiber optics services at special discounted prices with your FiOS subscription. Also, they provide live programming for sports – ESPN, for kids – Disney, news – ABC, movies, and soap programming.

FiOS, making use of Verizon fiber optics to provide these offerings to the customers, are providing what seems to be an almost complete package for anyone’s enjoyment and learning experience.

While you will save more with a yearly subscription of Verizon fiber optics service through the FiOS, monthly options are also available. You may try checking out their website to get the details of their offer.

With Verizon fiber optics you will get to fully maximize the use of your computers. All you will ever need, whether it be work related, personal matters, news, entertainment, education and learning, or whatever – FiOS gives you the answer. You can now do almost anything and everything with your computer – having the power, speed and reliability of Verizon’s FiOS.

What is Fiber Optics?

Step aside metal wires, because here comes fiber optics. Yes, fiber optics are making waves in the telecommunication and computer industries. They are challenging the presence and the utility of metal wires as far as data transfer and reception is concerned. It is predicted that in the coming years almost everything in the telecommunication industry will use fiber optics. It will surely make the use of copper wires obsolete in due time.

But what is fiber optics? Fiber optics is a thin strand of fiber as thin as your hair, made of glass, which you can see clearly, as the name optical fibers imply. These strands are bundled and covered with coating material to make it into a cable. The cables we see in our telephone and computers are made of fiber optics. Fiber optics transfers data from one point to the other through light waves, unlike your metal wires, which transfer data using electric waves. These light waves pass through the core of the fiber optics, which by refracting from one focal point to another. Once the light wave reaches the other endpoint the data is then decoded. Data carried through a fiber optic can travel over long distances.

What is fiber optics? Imagine the telephone game you played when you were a kid. You have those two pieces of tin cans or cups where you put hole at the bottom on each cup or can. You connect them with a string or a thread. Once this is done you stretch the string to opposite direction in a straight line and play telephone game. It is a wonder how the message can travel, but once the string is bent the message can no longer reach to the other end.

In the case of fiber optics, even if those tiny strands of glasses are bent, light can still travel through the internal refraction system. The data that is being relayed can still reach to the receiving end. The internal refraction system in fiber optics works in a way that the light travels by bending from one point to the other somewhat forming a zigzag line inside the fiber.

What is fiber optics? Fiber optics is composed of three layers of glass material. The core, which is the innermost portion of the fiber, is where the light passes through. The cladding, which is the second layer, does not absorb the light in the fiber allowing it to reflect to the core. The buffer coating is the covering material made of plastic to prevent the moisture from damaging the fiber.

What is fiber optics? Fiber optics is lighter than metal wires or cables, and even if it is bent, data transfer is not affected. No wonder why more and more industries are attracted to the benefit of fiber optics.

Even the medical world is now using gadgets that are equipped with fiber optics. Did you see those laparoscopes and endoscopes you see in hospital laboratories? Those are made of fiber optics.

Fiber optics is continuously making wonders in every human activity. It has made life easier. So, what is fiber optics? At least now you know.

Who Invented Fiber Optics ?

The fiber optics that we have known today, has gone through so many stages of development before it be came what it is now. The metamorphosis of fiber optics can be credited to the many minds that have made extraordinary refinement of the function of fiber optics.

If we want to know who invented fiber optics, we must trace back to the times when it was modeled from. Actually the idea of fiber optics was inspired from the works of John Tyndall who in 1854, have presented the possibility of having light traveled through an irregular path, before the Royal Society, which gave the idea that light wave can be deformed.

Another noted scientist who can be credited to the flourishing of the fiber optics technology today is Alexander Graham Bell, however he is not the answer to the question “who invented fiber optics”. The photophone, which Bell invented provided an impetus for the development of fiber optics, because from there the thought that message can travel through medium had been noted.

The idea that light and message has become the inspiration of the workings of fiber optics at present. Who invented fiber optics, again was hard to answer even if William Wheeler in 1880, Roth and Ross in 1895 who are medical students from Vienna Austria, and David Smith had made their respective efforts in conducting experiments of making light pass through a channel.
It was only in 1930 that Heinrich Lamm who was pursuing a medical degree, was the first to successfully put strand of fiber optics together to send an image from one point to another receiving end. It is in this phase that fiber optics gained prominence as a possible tool of reaching the inner parts of the body that were otherwise hard to reach.

Several other scientists had followed suit in developing the use of fiber optics, so it is really hard to determine who invented fiber optics. The likes of Abraham Van Heel, and Elias Snitzer published their own works regarding fiber optics in 1954 and 1961, respectively. Dr. C.K. Kao was the one who determined the amount of decibels lost when transmitting messages. He was the one who proposed the manufacture of fiber optics made of pure glass material to minimize light loss. The proposal had opened the possibility of sending light waves over long distances. The famous Corning Company was the one that manufactured fiber optics in mass volume that was commissioned by the US Army Signal Corp.

The many innovators of fiber optics deserve adulations and praises, but as to who invented fiber optics you can only count plenty of heads.

All You Need To Know About Fiber Optics Communication

For the better part of the decade, DSL is a major proponent when it comes to telecommunications. It is already expansive in reach due to the already present spider web lattice of telephone and cable wires that literally strung the US continent. It has incremental degrees of service, useful on a nation that’s generally stuck with contrasting extremes of wealth. But why is this seemingly established technology tethering precariously on the edge?

It is the expanding presence of fiber optics, a stronger media that had already made an impact by starting the Information Age. It has overcome the topographical limit of copper telephone lines, and similarly it has overcome the speed by which DSL (and the succeeding generations of ASDL, SDSL, and HDSL) have been so very proud to exclaim.

The secret is the installation of far-reaching network of intercity and transoceanic optical fiber communications line. Among this is the Submarine Communications Cable with the capacity of 2.56 terabit per second. This speed is already overwhelming if you compare it with the conventional 512 kilobits per second average of ADSL. That is why several physical institutions had ceased to exist, at least physically. Because businesses can be as easily conducted through the internet as being conducted anywhere else, making the heritage of Wallstreet obsolete and concepts such as Intangible Economy and Technocapitalism an influential economic structure used today.

Yet for all the superiority of fiber optics, fiber optics communications is still leagues behind in practicality. That is due to the high cost involved in its installation, which contrasts to the already present bundles of telephone wires. You’d have to pay several times more than what you might pay for a DSL connection. However, the benefits are distinct, there’s no way DSL, ADSL, SDSL, and HDSL can compete with optical fiber.

But that doesn’t change the fact that fiber optics is still the best telecommunications technology available. Yes, copper can be fast, in fact ADSL is already fast, and can rival fiber optics in power. But in the long run, copper just couldn’t compete technically with fiber optics. This is the Information Age; by the way. An age where information leaps by unlimited bounds, moving faster than physical movement, achieving the speed of light – and can you say the same with copper cables? Not exactly, that is fiber optics communication.

Fiber and Optics Unveiled

The world wouldn’t be what it is now if it were not for fiber optics that has made advancements on the different fields and industries. Almost every facet of our lives have been affected by the innovations brought about by this technology. Mankind owes a lot to the fiber optics technology that has brought wonders to us now, and perhaps some more in the future.

What’s in a name? Fiber Optics – Fiber and Optics - Let us understand the meaning of the name behind such an awesome technology.

Fiber and Optics Revisited

Fiber in Fiber Optics – This word refers to the thin strands of pure transparent glass or at times of plastic composition that guides the light that passes through. This is commonly referred to as the core in the realm of fiber optics.

This can either be of single-mode or multi-mode classification. A single-mode fiber has a smaller core at around 9 microns and can be used for telecommunications and CATV applications. It allows for light travel at long distances at very high rates of speed. The multi-mode fiber has a bigger core at around 50 microns to around 62 microns. This is applicable for short distances with lower speed networks. Also, lasers are used for single-mode fibers, and LEDs are used for multi-mode fibers.

Optics in Fiber Optics – The word Optics is defined as a branch of physics that deals with the generation, transmission, and detection of electromagnetic radiation in the wavelength range between those of microwaves and those of x-rays. This range is called the optical spectrum.

In general terms, optics is the science of light and vision. With this comes the principles of refraction, diffraction, dispersion, interference and propagation of light. A major point in the history of optics is the development of lasers.

Fiber and Optics Rediscovered

Fiber and optics, with their individual theories and applications, combined to make the fiber optics technology work. With their merging and integration, fiber optics has become what it is today because of these two concepts.

Fiber and Optics Demystified

The name fiber optics can be decoded to individual and separate words - and with the theories behind each, hold the key to unveiling the concepts behind fiber optics. Dissecting the words would lead one to a better understanding of the name and the technology that has more than created wonders to the world. The name behind the technology definitely makes sense. It stands behind principles that support the operations of fiber optics technology.

Fiber Optics Cable

Copper was once hailed as the ultimate solution to cabling needs until the invention of fiber optics. Almost all gadget and modern equipment are connected using coaxial copper wire. With the advent of fiber optics technology, coaxial copper cable has finally found a competitor.

Fiber optics cable has been around for many years. It has provided a better way of data transmission compared to the old coaxial copper cable counterpart. There are advantages in using fiber optics cable. It is lighter than the metal-based cables. It can transmit data over a longer range as compared to the metal cable. Fiber optics cable can also transmit data even when the cable is twisted slightly. Fiber optic cable can be submerged in water, because it does not carry electric energy unlike the copper cable that carry electric current, thus making it impossible to be submerged in water.

The disadvantage of using fiber optic cable is that it is difficult to splice, this makes harder to connect the cables, unlike the metal cable that splicing is very easy and connecting is easer too. Fiber optics cable tends to be more expensive as compared to the coaxial copper cable.

A fiber optic cable is composed of hairlike thin strands of glass fiber, however there is also fiber optics made from plastic material. Each strand is composed of a core, cladding and buffer coating. The core is the inside passage of light waves containing data. The light that passes through the core travels in a zigzag like manner. This is because light refracts from one angle to the other, or what is commonly known as the total internal refraction.

The middle layer of the fiber is the cladding. It wraps around the core while protecting the light from escaping. The cladding is incapable of absorbing the light, which helps contain the light only in the core. However there are instances wherein light absorbed is lesser than expected. This is due to the impurities of the glass used in the making of the fiber optics. In order to minimize the amount of light escaping from the core, a dopant is used, a kind of elemental substance, that can amplify the amount of light as it traverses to the whole length of the fiber optics. The last layer of the fiber optics is the buffer coating, which protects the cladding and the core.

Fiber optic cable is widely used in the telecommunications industry. Gradually this cabling material is slowly putting the use of coaxial copper cable to rest.

A Brief History of Fiber Optics

Fiber optics continues to hold a very bright future in the different industries it has come in contact with. With the vast applications in these different areas where fiber optics technology is used, one can’t help but wonder how such discovery came about, and be amazed at how such technology continues to make its mark on industries as the telecommunications field, medical field, military & space settings, lighting, computer networks, television and many more.

It is thus fitting to learn some few details on the history of fiber optics. It is no question the we have indeed realized benefits from this technology, and it is only proper to pay respects to the history of fiber optics – those points in time that led to the development of this valuable technology.

Year 1800s in the History of Fiber Optics

In the year 1840, physicists Daniel Collodon (Swiss) and Jacques Babinet (French) were able to show that it is possible to guide light along jets of water for fountain displays.

Then in 1854, British physicist John Tyndall showed that light could be bent on a corner through a curved spout of running water.

The raw and initial concept of total internal reflection came into being. This concept is in fact, the basis of fiber optics operation. And this principle has guided fiber optics production and use.

First Few Practical Applications Envisioned

Applications as dental illuminators, transmitting images for television, sending out signals to facsimile systems were foreseen. Patents were filed for ideas imagined possible for fiber optics, while some continued to experiment on perfecting the initial discovery to have valuable use on a particular industry.

Milestones in the History of Fiber Optics

One such person to actually demonstrate fiber optics image transmission is Heinrich Lamm – a Munich medical student. Next came Abraham Van Heel when he covered a bare fiber with a transparent cladding – one that has a lower refractive index than the core material.

Another milestone in the history of fiber optics is the development of glass-clad fibers. At around 1960, these glass-clad fibers had around one decibel per meter of attenuation. This was ideal for medical imaging.

Still at the 1960s, laser technology also came about. In the 1970s, pure low-loss glass fibers evolved. These developments laid the groundwork for technology integrations and diversified applications for the different industries.

Fiber Optics Today

Mainly taking over the telecommunications industry in terms of being the preferred telecommunications medium, it has also been seen to be making strong waves in computer network infrastructures and in the medical environment. Definitely, every field or industry it involves itself - is history of fiber optics in the making.

Fiber Optics

With the need for more bandwidth needed for communication signal transmission, fiber optics technology has risen up to answer to even the highest of demands. This technology seems to be the future of communication infrastructure and systems. The theory behind its function is just ideal for one’s high requirements and for any future expansions that may be in place.

The recent generation has truly benefited from information technology and infrastructures that make life easier for almost all people – whether they be students, professionals, government employees, or mere individuals just letting life pass by. The benefits of having information available at one’s fingertips and the advantages of being able to communicate from even across the globe is of outstanding effect to how an individual will be able to fully live his life, and of course comes with it, the unlimited opportunities presented to one for being connected.

Being connected means having access to the World Wide Web or the Internet. The Internet is a complex network of computer servers and clients, which operates on certain communication protocols and standards. The infrastructure behind it, is much the same infrastructure that fiber optics are strongly gaining ground.

Currently, various industries have switched from copper wire network systems to fiber optics. Schools, telephone companies, television firms, industrial plants and many others have started seeing the value of fiber optics to their existing and perhaps future needs of efficient information and communication systems.

The applications of fiber optics are endless, and the technology behind these works very well in meeting especially those of big industries and commercial companies. If these companies value efficient and effective communication systems, providing near real time and faster speeds of communication signal transfer, investing on fiber optics would be one worthy of consideration.

With fiber optics, the investment may be quite expensive, especially with the installation and set-up costs that would include all the necessary components as transmitters, receivers, optical regenerator, etc. In the long run however, this may prove to be a wise investment, especially with your expansion options, and fiber optics’ capability to handle large bandwidth needs.

New technologies and innovative one’s at that, have greatly affected the way we live – whether we know it or not. The way businesses are done have also changed, even the way relationships are made have also evolved. Fiber optics has come in, in line with this evolution. One only has to be creative to make full use of the opportunities this fiber optics brings.

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