Under the support of the National Natural Science Foundation of China (Grant No.
As we all know, the uncertainty principle is one of the cornerstones of quantum mechanics, which describes that some physical quantities of a microscopic particle cannot have definite values at the same time
The research team focused on this challenging topic.
This study confirms the inherent limiting relationship between the rate of process change and the rate of energy dissipation imposed by the uncertainty principle of quantum mechanics in non-equilibrium processes, which not only deepens the understanding of the fundamental principles of quantum mechanics, but also helps to understand the real quantum The speed limit of manipulation is of great value for further optimizing technologies such as quantum measurement, quantum initial state preparation, and quantum information reading
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