New Breakthrough in Technology World Allowing 1000x Increase in Data Transfer Speed

  • This technology will replace the electric current that is being used in the computer chips with light.
  • One of the largest benefits of this technology is that optical fiber barely gets heated during the process in comparison to the copper wire.
  • The new compound consists of the silicon and germanium which has a hexagonal crystal lattice.

A new breakthrough compound that emits bright light has been achieved by the scientists from the Eindhoven University of Technology in the Netherlands. The University has been placed in the top 400 universities in the world by five major ranking tables.  The project team was lead by Erik Bakkers. The team is comprised of International physicists.

Eric Bakkers Professor at the Eindhoven University of Technology, Applied Physics Center for Quantum Materials and Technology.

The full scientific research Direct-bandgap emission from hexagonal Ge and SiGe alloys is available here.

It was predicted in the last century by physicists that the material in the project would be an effective source of photons. In 2015 such synthesis became possible, but it is only this year that Erik Bakkers’ team was able to reduce the number of impurities and lattice defects in the crystal to bring it to the desired optical quality.

This technology will replace the electric current that is being used in the computer chips with light. This will increase the speed of the data exchange over 1,000 times.

Currently, computers use the data between silicon chip elements that are being transmitted by the electric current flowing through a copper wire. Computer chips are made of silicon, which is a semiconductor. In order to make the most efficient use of it, chip manufacturers use sand that contains as much silicon as possible. The mineral quartz is ideal for this purpose because its two main components are silicon and oxygen.

The international team of physicists have created a silicon-based substance that effectively emits light. We are talking about a compound of silicon and germanium, which has a hexagonal crystal lattice. In crystallography, the hexagonal crystal family is one of the six crystal families, which includes two crystal systems and two lattice systems.

Silicon Chips on a Computer Processor.

It has been a goal for some time to be able to replace the process with beams of light which are propagating through the fiber. A new technology will be beneficial with data transfer speed increase. An increase of 1,000 times is a huge advantage.

One of the largest benefits of this technology is that optical fiber barely gets heated during the process in comparison to the copper wire. This is important pertaining to power losses. This new technology will also allow the electronic components to be placed closer and provide a myriad of other options. Due to the fear of overheating, options are limited at this time.

Silicon-gallium nanowires created by scientists have a hexagonal cross-section. Their shape is determined by the structure of the crystal lattice. The technology is expected to be internationally presented by the fall of 2020.

It is a great development in the technological field. The data transfer and the lack of overheating is one of the most attractive features of this technology. It will be greatly accepted on the market.

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Christina Kitova

I spent most of my professional life in finance, insurance risk management litigation.

One thought to “New Breakthrough in Technology World Allowing 1000x Increase in Data Transfer Speed”

  1. This is amazing. It will change how computers are built and likely change how they are connected. It will affect more than computers. Anything with a mother board and has a heat consideration will be improved. This will likely have positive results in televisions and monitors, as well as vehicles and marine applications. It even could affect weight considerations in jets if 600,000 feet of copper wire can go the way of the prop.

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