From Science Fiction to Science Fact: The Superconducting Material Changing Everything
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The recent observation of high-temperature superconductivity in bilayer nickelates, specifically La3Ni2O7, marks a pivotal moment in condensed matter physics. Superconductivity, a phenomenon where electrical resistance drops to zero, allows for lossless electrical transmission, a dream for modern technology. Unlike traditional superconductors, which require extremely low temperatures, high-Tc (critical temperature) superconductors operate at more practical temperatures, making the dream more tangible. The discovery in La3Ni2O7 under pressure not only expands our understanding of high-Tc superconductivity but also sets the stage for new, more efficient technologies. Imagine a world with drastically reduced energy loss in power transmission, transforming our energy landscape and enabling advances in quantum computing.
From Science Fiction to Science Fact: The Superconducting Material Changing Everything
From Science Fiction to Science Fact: The…
From Science Fiction to Science Fact: The Superconducting Material Changing Everything
The recent observation of high-temperature superconductivity in bilayer nickelates, specifically La3Ni2O7, marks a pivotal moment in condensed matter physics. Superconductivity, a phenomenon where electrical resistance drops to zero, allows for lossless electrical transmission, a dream for modern technology. Unlike traditional superconductors, which require extremely low temperatures, high-Tc (critical temperature) superconductors operate at more practical temperatures, making the dream more tangible. The discovery in La3Ni2O7 under pressure not only expands our understanding of high-Tc superconductivity but also sets the stage for new, more efficient technologies. Imagine a world with drastically reduced energy loss in power transmission, transforming our energy landscape and enabling advances in quantum computing.