Investigation Into the Creation of a Research Facility for the Development of a Quantum Computer

A survey on the creation of research facilities for the development of quantum computers We have entered a new century for about 5 years and we have not yet found a solution to the collapse of Moore's Law. Now that the chip size has shrunk by 10 years, we are ready to move in various directions. The era of silicon computers is over. Now is the time for us to go. The future is the development of quantum computers. You must start research before it's too late.

... We developed a special quantum computer called a quantum simulator that can be used to provide a new perspective of a series of complex quantum processes, from the relationship between quantum mechanics and material properties to the new stages of material research. Solve complex real world optimization problems. Mr. Mikhail Lukin and Markus Greiner from Harvard University and Vladan Vuletic from MIT, who worked at the Institute for Physics at Harvard University, developed a special type of quantum computer called a quantum simulator to capture ultra low temperatures.铷 Programming. The laser atoms are arranged in a specific order and you can perform the calculations required by quantum mechanics

Through quantum computing, we have witnessed three modern deepest and successful three technological developments: exciting and highly promising convergence of quantum physics, computer science and nanotechnology. Quantum computers can perform specific calculations tens of times faster than silicon based computers. Functional quantum computers are very valuable when decomposing large quantities, which is very useful for decrypting and encoding secret information.

Through competition among IBM, Microsoft, Google and other technology companies, some progress has been made in the development of recent practical quantum computers. For a detailed technical overview of quantum computation and quantum information, please read the revolutionary book which is one of the most quoted books in the field of physics. We understand the physics behind building quantum computers, but the real challenge is engineering. Qubits suffer from decoherence. This means that the information stored in the qubit is lost due to the interaction with the environment.