Israeli scientists have successfully built the world's thinnest electronic devices (thickness with two atoms) used to store information.0: 00/2: 20 South electronic devices including two Class (a layer made of boron and the remaining layer made of nitrogen) is sorted in a hexagonal repeat structure. Thanks to taking advantage of the magical effect of strange billion names through quantum tunnel, electrons from boron atoms and nitrogen atoms can pass through the gap between the two layers, changing the state of the device. As a result, new electronics capable of encryption, storing digital information. The above preparation is similar to how modern computer devices today work
. The central part of the computer contains many extreme crystals, each with about one million atoms ranked in many layers, in each class with 100 atoms. By launching electrons through the gap between classes, the computer can switch between two binary states (0 and 1), creating the platform for the basic digital information unit bit. "In three status Natural dimension, this material covers a lot of overlapping layers, each layer of 180 degrees compared to adjacent layers
In the laboratory, we can put the layers according to parallel configuration without rotating, Placing the same type of overlapping atoms is perfectly stacked in accordance with the strong push between them, "Moshe Ben Shalom, a researcher in a researcher. New electronics are manufactured capable of encryption and storage capabilities Digital news. Quantum tunnels allow particles, in this case, electrons, transmitted through barriers that don't seem to overcome. It is because in quantum physics, material survives simultaneously in both wave and granular form. Similarly the waves flapping on the shield on the sea will leave a smaller wave spread to the other end, in the form of waves, particles also have the ability to survive on the other side of the barrier. It is this ability to help electrons move between the Boron and Nitrogen layer of the device. In fact, the team said the two layers don't stack together perfectly, instead, they slightly slip from each other's focus to Accumulated electric mark. Therefore, free electrons (positive electricity) move to a layer and nuclear nucleus that accumulates positively in the remaining class, creating electrical polarization inside the device. Through adjusting the two-layer position, the researchers can reverse electrical polarization, making the device transfer from this binary state to the other binary status, so that information can be stored. Reducing technology size to two layers of atoms, the team can speed up the movement speed of electrons
Faster movement electrons can help future devices work fast, less solid and saving more energy. . Dịch vụ:
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