Fiber optic technology is not anything new, but new uses of technology are most likely to modify the way we work and live.
For many decades fiber optic technologies, transmitting light through elastic fibers of very thin glass or other translucent materials, were accessible. You can also hire professional engineers from companies like https://izakscientific.com/ for your optic applications.
However, the price of the technology has been considered too expensive for anything aside from long-distance software like telecommunications.
The substantial advantages over conventional aluminum pipes were what created the extra cost worthwhile. Nowadays, higher quantities of manufacturing have generated lower prices so they are currently feasible for many programs.
The power of fiber optics also has expanded dramatically with wires, once restricted to a wavelength, currently capable of carrying well over a hundred wavelengths at the same time.
The end result of those and other technological improvements is greater bandwidth and the availability of applications.
Verizon's system employs a different approach, bringing fiber optic cable all the way in every residence or business. A similar system was set up in Japan for a while.
Other businesses are operating using lasers for a huge array of applications. The capacity of lasers to supply very large electricity makes them a fantastic alternative for many industrial demands including welding.
Non-laser fiber optics are substituting aluminum in cars as a milder weight option to be used in CD players, GPS systems, bench, and climate controls and ac systems, and in the subject of study they've enabled the production of super-precise clocks.