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50nm nanofibers for communications: traditional technology
Scientists from the Universities of Harvard (USA), Zhejiang (China) and Tohoku (Japan) invented another method for manufacturing nanowires in the course of joint work. Scientists claim that they managed to create an optical fiber with a diameter of 50 nm by pulling from a millimeter quartz rod on a sapphire cone at a high temperature. Such an optical fiber has unusual properties – the diameter of the fiber is less than the wavelength of light that is supposed to pass through it (150-600 nm). In this case, the electromagnetic wave is not concentrated inside the fiber, but propagates near it. Therefore, changing the direction of propagation of an electromagnetic wave is possible by simply touching the nanofiber with another fiber.
Most surprisingly, nanoscopic optical fibers are manufactured using a traditional glass blowing method using a natural gas and oxygen burner. Although no further details have been reported, the sapphire cone plays a key role (its melting point is higher than that of quartz ? 1700 degrees, although there is a risk of cracking due to non-uniform heating) around which the nanofiber is wrapped.
On my own I will add that few people have yet managed to make quartz fiber with a diameter of less than 10 microns by hand in the flame of a burner (the fibers used for optical communications have a diameter of about 100 microns and are drawn by extrusion, similar to how copper or aluminum wires are produced). With the use of powerful CO2 lasers or by the method of heating the filament in a cold flame, it is possible to achieve diameters from 0.5 microns, that is, 500 nm. Thus, the scientists managed to improve the applicability of the traditional method by 10 times! At the same time, it is argued that 50-nm nanofibers have a fairly flat surface (without waves and condensed quartz vapor) and a uniform diameter. Due to their small diameter, nanofibers are easily bent (and this is known to be a problem for conventional optical fibers).
Having learned how to make such fibers, it is no longer difficult to find a use for them. It will be possible to pack several tens of nanofibers into an ordinary fiber-optic cable, thereby significantly increasing the capacity of the communication channel. A group of researchers at Harvard University plans to use nanofibers in microsurgery.