How Does It Work?
Fibrance technology is basically a glass optical fiber that unleashes colorful lighting. Yet, to really understand it, you have to go back to the beginning when a Corning team uncovered how a fiber leak could become an innovation. ??
“We were researching how to minimize any losses of light from bending Corning? ClearCurve? optical fiber by modifying the refractive index of the optical fiber clad – in other words the outer layer ? with small inclusions called optical nanostructures,” said Stephan Logunov, Senior Research Associate. The refractive index is a ratio to determine of how light is bent, or refracted, when entering a material like optical fiber.
“This approach helps contain the light traveling through the fiber especially when it is bent, but when we added nanostructures into the inner core of the fiber instead of the cladding, it created a totally different effect – the light was actually scattering, or leaking, from the fiber.”
Logunov?explained that while Fibrance technology was a bit of an accidental discovery, researchers invented the technology with the same process – something called outside-vapor deposition ? used to manufacture traditional fiber. Fibrance technology has the thinness and flexibility of optical fiber, but creates a whole new experience with how it handles light. ?
“Just by tweaking the material before the fiber is drawn into thin strands of glass, the silica is infused with optical nanostructures that emit or ‘leak’ light versus controlling it,” he said.
When light hits these nanostructures it evenly emits or diffuses the light out of the sides, but also down the length of the fiber.
Fibrance technology differs from optical fiber for the telecommunications industry which is designed to have very low losses of data signals in form of light. The light refracts and travels within the fiber’s core in order to transmit data signals that enable the high-speed downloads and bandwidth we expect every day.
While Fibrance technology may seem like a dripping faucet of light, Corning researchers have figured out how to tailor the light into a controlled, steady stream.
"It may have started as a leaky fiber, but we know how to fine tune that light and the diffusion length so the fiber stays bright; how to pair the fiber with the proper light-sources to create new lighting effects; and how to integrate, embed, or stitch the fiber into our customers’ latest products and design projects,” said Carl Crossland, program manager for Fibrance technology,?Advanced Optics,?Corning Specialty Materials.