Light computer rises the power of the binary computers that are still needed to control quantum computers.

The image above: illustration image

The new light transistors are making 1000 times faster binary computers than ever before. And that thing can make it possible to create more effective binary computers. But also that thing makes the use of quantum computers more effective. 

We are living in the time of quantum computers. So why the speed of regular or binary computers is needed to rise? The thing is that even if quantum computers are turning more and more common there is one thing that is making them limited. 

The data input to the quantum system happens through binary computers. So increasing the speed of binary computers would make that bottleneck between the binary and quantum computers larger. There are two ways to make ultra-fast binary systems that can input or transmit between regular computers and quantum computers. 

The first way is just to make the microcircuits superconducting. The problem with the superconducting microchips is that the electric flow will jump over the switches and routers very easily if the system uses extremely small-size nanotechnical components. 

The other way is to use the light as the data transporter. In the light transistor, the electric flow is replaced by using light. The laser light would travel through the base and collector. And the emitter will inject more laser energy into the laser ray that transmits the data. The light transistor helps to make the temperature of the system low. The routers of the system base the ultra-small mirrors. 

Those mirrors can turn to the wanted angle. Those mirrors turn the laser ray in the wanted direction. And the switches are the mirrors that are closing the route of the laser ray. Transforming the data from the photons to the electric form is quite a simple process. The laser rays will impact the miniature photovoltaic cells that are made by using silicone. That thing would use the photoelectric effect where the light is turning to electricity.

That transforming is needed for turning the data into the form that the peripheral systems like the microchips of display adapters can understand. The problem with quantum computers is that they need binary computers for transmitting data in those systems. The next big step in quantum computing is to make a system that can be controlled straight by using regular keyboards and that can introduce data by using the regular screens. If that kind of system is coming to markets. That thing is a new revolution for quantum computers. But the bottleneck is turning to display adapters and the keyboards and other peripherals. 

()https://scitechdaily.com/new-extremely-energy-efficient-optical-transistor-speeds-up-computation-up-to-1000-times/

()https://www.toppr.com/guides/physics/semiconductors/transistor-working/#:~:text=The%20three%20basic%20parts%20of%20the%20transistors%20are,substance%20is%20in%20use%20to%20make%20the%20transistors%3F

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