Scientists have long been looking for ways to manipulate electromagnetic fields in an unobserved way in nature.  For this purpose, there are synthesize materials call metamaterals. A research team that was part of the Umbutt Lowell was able to develop a new metamathal.

There is a production of metamaterals that respond to the needs of mankind, beyond the material found in nature. Many scientists have been working on this topic. The work done in this field can vary greatly. Each material is plan to serve a different purpose.

New class Metamaterals produced in the project attended by Umbutt Lowell, King’s College London, the University of Diderot in Paris and the University of Hartford can change the color of light. This technology can lead to more data storage chips and wider access bands in future. This technology can also be use in the development of the fiber optic telecommunications network.

Professor Viktor Podolskiy of the Physics and Applied Physics Department, which is the chief auditor of the project on behalf of Umarse Lowell, “Today’s computer chips are using electrons to calculate. Electoons are good because they are small.” Says. But the frequencies of the electrons are not fast enough. Light is a combination of mass-less particles call photons. As a result, photons can potentially increase the processor speed of the chips.

The Professor Podolskiy System explains that chip communication, which translates the electrical signals into light casts, replaces the old copper-wire system. In this way, it is possible to establish optical communication between chips and nuclei.

Podolskiy said in a statement the new system would make parallel computational operations much more effective. It  would eliminate the strandesis of communication. The professor also said that the colors have different energies. The professor also says the photons with low energy can be combine to create a new color and larger photons.

The researcher says the interactions of photons are essential for computing and optical calculations. He adds that is very few of the materials that provide photon interaction, and this non-linear process is unfortunately not very productive.

Podolskiy and his team find a few materials that are weak in terms of nonlinear character.

Then,  they managed to remove new metamaterals with the combination of these materials. This metamateral has non-linear properties at its intended level. The feature of the new material comes from the ability to direct the photon flow. The material that emerged as a result of the study promises to guide and control nonlinear reactions of materials. The system can be apply to the electrical flow on the chip and may significantly increase communication on the chip.