China Builds World’s First 2nd-Generation Quantum Computer for Discovering Superconductive Materials
High-temperature superconductivity has emerged as a game-changer with the potential to revolutionize numerous scientific and technological domains, ranging from power transmission, energy storage, transportation, medicine, to supercomputing. Imagine efficient and lossless electricity transmission, lightning-fast computing systems, and cutting-edge medical imaging technologies. The advent of high-temperature superconductivity promises to reshape our technological landscape, ushering in a new era of groundbreaking innovations with far-reaching impacts.
Unlike conventional superconductors that require extremely low temperatures, high-temperature superconductors can operate at relatively higher temperatures, making them more practical for real-world applications.
However, the mechanisms driving high-temperature superconductivity have not been fully understood. The Hubbard model is the key to unravel the secret of this elusive phenomenon. Proposed by British physicist John Hubbard in 1963, …
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