Researchers at the University of Southampton in the United Kingdom have developed a hollow fiber optic cable, they said, to reduce the delay in data transmission. Researchers at the University of Southampton in the United Kingdom claimed to have increased the speed at which data can be transmitted through fiber optic cables, forming one of the links on the backbone.
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The team said that it has developed an air-core optical fiber that transmits wavelength division multiplexed light in vacuum at a rate of 99.7% with multiplexed data. Faster light can traverse the potential delay of fiber's lower data transmission. In contrast, today's solid silica glass fiber optic cables in use transmit light at a speed of about 69% of light in vacuum.
Using hollow fibers, the difficulty in transferring data to date is that the cable struggles to maintain low loss, a combination of wide bandwidth and mode coupling characteristics required for high-capacity data transmission. The researchers said that they have now achieved a reasonable balance of these factors, recorded a loss of 3.5dB per kilometer, using a 160nm bandwidth channel to transmit 37 WDM (wavelength division multiplexing) channels at 40Gbps, which they claimed to be 1.54μs /km faster than traditional fiber.
In addition to the faster transfer, the high bandwidth of the general interest, the low latency signal transmission link is at an increased rate of demand, algorithmic financial transactions can occur, interconnected with the fastest speed of future scale supercomputers Internal components.