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Quantum Limit: Difference between revisions
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(Created page with "== Introduction == The concept of the '''quantum limit''' is fundamental in the field of quantum mechanics, representing the ultimate boundary at which classical descriptions of physical phenomena give way to quantum descriptions. This limit is crucial in understanding the behavior of particles at atomic and subatomic scales, where the principles of quantum theory dominate. The quantum limit has profound implications in various domains, including quantum comput...") |
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In [[condensed matter physics]], the quantum limit is relevant in the study of [[electron transport]] in materials. At very low temperatures or high magnetic fields, electrons exhibit quantum behavior that deviates from classical predictions. The [[quantum Hall effect]] and [[quantum spin Hall effect]] are examples of phenomena where the quantum limit plays a crucial role. Understanding these effects is essential for developing new materials and technologies, such as [[topological insulators]]. | In [[condensed matter physics]], the quantum limit is relevant in the study of [[electron transport]] in materials. At very low temperatures or high magnetic fields, electrons exhibit quantum behavior that deviates from classical predictions. The [[quantum Hall effect]] and [[quantum spin Hall effect]] are examples of phenomena where the quantum limit plays a crucial role. Understanding these effects is essential for developing new materials and technologies, such as [[topological insulators]]. | ||
[[Image:Detail-92535.jpg|thumb|center|Microscopic view of quantum particles interacting in a controlled environment.]] | |||
== Quantum Limit in Quantum Field Theory == | == Quantum Limit in Quantum Field Theory == | ||