Digital Cameras

MIT’s ‘flexible camera’ replaces lens with fiber web

SEM micrographs of the fiber show the uniform arrangement of the cross-section structure from the macroscopic preform (left) to the microscopic fiber (right)
SEM micrographs of the fiber show the uniform arrangement of the cross-section structure from the macroscopic preform (left) to the microscopic fiber (right)
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SEM micrographs of the fiber show the uniform arrangement of the cross-section structure from the macroscopic preform (left) to the microscopic fiber (right)
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SEM micrographs of the fiber show the uniform arrangement of the cross-section structure from the macroscopic preform (left) to the microscopic fiber (right)
(left) The layers of light sensors arranged in the fiber preform. (center) The preform-to-fiber thermal drawing approach. (right) The resulting fiber cross-section, with the arrangement of the sensor materials intact
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(left) The layers of light sensors arranged in the fiber preform. (center) The preform-to-fiber thermal drawing approach. (right) The resulting fiber cross-section, with the arrangement of the sensor materials intact

Imagine that instead of carrying a camera in your jacket pocket, your entire jacket was the camera. That is the promise of a new type of light-detecting fibers developed by researchers at MIT. The team from the Institute's Department of Materials Science and Engineering (DMSE) has developed light-detecting fibers that, when woven into a web, act as a flexible “camera”. Fabric made from these fibers could be joined to a computer to create a large, foldable telescope or made into a soldier’s uniform to provide greater situational awareness.

The researchers, led by DMSE Associate Professor Yoel Fink, emphasize that while such applications are still years away, work is progressing rapidly on developing fabrics capable of capturing images. In a recent issue of the Journal Nanoletters, the team reported what it called a “significant” advance in using a fiber web to take a rudimentary picture of a smiley face.

Cameras, telescopes, and our own human eyes use lenses and receptors to create images of the world around us. But lenses have a limited field of view, and can become a single point of failure when damaged. But optical fiber webs provide a distributed imaging capability over the entire surface of a fabric, which provides a wider view and are less susceptible to damage. If one area is damaged, other fibers can still function, extracting the image.

The new fibers are less than 1mm (0.04in.) in diameter and composed of eight nested layers of light-detecting materials. To make the fibers, the researchers arrange the semiconductor glass sensors in a polymer cylinder with a diameter of 25mm (0.9in.). When the sensors are in position, the cylinder is heated and stretched until the diameter is just a few hundred micrometers. This extrusion process is the same method currently used to manufacture commercial optical fiber for telecommunication applications.

1 comment
windykites
This idea lends itself to many applications. It is strange how many ideas have a military use. I suppose that is where the bottomless pit of funding is.
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