One of the Biggest Barriers to Quantum Computing Has Been Eliminated

There are many problems that must be overcome for quantum computers to be widely used in the future. The temperature problem, one of these problems, may be lagging behind recently.

There are many who believe that the future of computing is in quantum computers . Companies are also working hard to make this technology available . Quantum computers are often the subject of our news.

The development of new technologies is not always easy. There are a lot of fields to progress. It seems that devices need to make progress both in terms of performance and stabilization. One of the most basic problems is the warming problem.

Quantum computers can become widespread:

Technology giants like Google promised us computers with a higher transaction volume and using qubits. However, manufacturing these computers requires much more difficult and complex processes than promising.

Two studies published in the journal Nature show that an important obstacle is about to be overcome. Under normal conditions, quantum computers operate in very cold environments. Processors must have freezing temperatures. According to new research, qubits; Not only does it heat up, it can work with ordinary silicone materials instead of superconductors .

With these obstacles in front of quantum computers, the cost will decrease to a few hundred thousand dollars. The new model will make it possible to work in environments that are 15 degrees warmer than the existing one .

Quantum computers will jump era:

Andrew Dzurak , one of the authors of the first article , explained in his statement that the qubits were still working in extremely cold environments, but even the small temperature change in between provided great benefits. However, this has brought the costs needed to meet the need for cooling down from millions of dollars to the level expressed in hundreds of thousands.

Dzurak's team succeeded in creating a stable system at higher temperatures and quantum tunneling with the systems that it captured a pair of qubits in silicon . Of course, this system is not flawless and as the temperature increases, the distortion in the data increases.

In addition to the work they published, the researchers also did a complementary study. Researchers, who say that more qubits can be used without sacrificing performance , will be able to increase the amount of qubits available thousands of times with the new design.

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