研究人员在高温度的铜超导体中发现了"锁定"的电子对, 这可能会给技术和量子计算带来革命性变化. Researchers found 'locked' electron pairs in a cuprate superconductor at higher temps, potentially revolutionizing technology and quantum computing.
美国SLAC国家加速器实验室和斯坦福大学的研究人员在比以前想象的更高的温度下发现了酸盐超导体中的"锁定"电子对. Researchers from SLAC National Accelerator Laboratory and Stanford University discovered 'locked' electron pairs in a cuprate superconductor at higher temperatures than previously thought. 这一发现表明,工程高温超导体具有潜力,有可能使现代技术和量子计算发生革命性变化。 This discovery indicates potential for engineering higher-temperature superconductors, which could revolutionize modern technology and quantum computing. 在杯子中研究配对机制可有助于设计在较高温度下运作的超导体,克服常规超导体的局限性。 Studying the pairing mechanism in cuprates could help design superconductors that operate at higher temperatures, overcoming limitations in conventional superconductors.