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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.]] | [[Image:Detail-92535.jpg|thumb|center|Microscopic view of quantum particles interacting in a controlled environment.|class=only_on_mobile]] | ||
[[Image:Detail-92536.jpg|thumb|center|Microscopic view of quantum particles interacting in a controlled environment.|class=only_on_desktop]] | |||
== Quantum Limit in Quantum Field Theory == | == Quantum Limit in Quantum Field Theory == |