The development of 3D printing has given us a lot of novelty, which has also promoted the great development of society. Angel Camacho Rosales, a graduate student at the Optoelectronics Research Center at the University of Southampton in the UK, is developing fiber-optic 3D printed fibers that can be used to improve data transmission systems. As one of the world's leading photonics research institutes, the Southampton University Photonics Research Center is a new hot spot for optical communication technology, bringing new and exciting solutions for medicine, security and other fields.

Angela Camacho Rosales, a graduate researcher at the Photonics Research Center, is currently working on a particularly promising project involving fiber optic 3D printing. Scientists say that silicon oxide powder can be used for 3D printing of optical quality glass for fiber optics, planar waveguides and other devices that may primarily affect data transmission systems.
According to Rosales, understanding the relationship between 3D printed materials and light is a key challenge in her research, as the absorption and reflection of materials and their ability to propagate light and trends under beam exposure ultimately affect 3D printed fiber results. .

The establishment of an optical quality glass manufacturing system does not mean anything, but researchers believe that this method can provide a useful alternative to existing chemical vapor deposition techniques. But it's not just a different approach to doing the same thing. Instead, Rosales believes that 3D printed glass may be the only choice for the production of highly complex fiber designs required for next-generation data transmission technology.
The additive manufacturing method for optical glass production will also enable Rosales and other researchers to experiment with different optical designs and immediately see which ones have succeeded in information conversion. Once the 3D printed prototype, the fiber design allows for physical testing of loss, data transfer and propagation modes.
The evidence suggests that Rosales is in the right place to achieve its goals. In 2015, researchers at the same research center at the University of Southampton presented their own fiber-optic 3D printing technology. The center also has a large number of high-tech equipment, including integrated photonic clean rooms, silicon fiber facilities and so on.

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