物理学家发现,碳化硅中包含的晶格缺陷可以在量子力学水平被操控作为一种室温下的量子比特来使用。最近,美国加利福尼亚大学圣芭芭拉分校物理学家发现,碳化硅中包含的晶格缺陷可以在量子力学水平被操控作为一种室温下的量子比特来使用,这一发现使碳化硅有望成为下一代信息技术的核心,广泛应用于电子工业,探索超快计算、纳米传感等量子物理领域。相关论文发表在本周出版的《自然》杂志上。 Physicists have found that lattice defects contained in silicon carbide can be manipulated at quantum mechanics as a qubit at room temperature. Recently, physicists at the University of California, Santa Barbara, discovered that lattice defects contained in silicon carbide can be manipulated at quantum mechanics as a qubit at room temperature, a finding that makes silicon carbide a potential next The core of a generation of information technology, widely used in the electronics industry to explore ultra-fast computing, nano-sensing and other quantum physics. Relevant papers published in this week’s “Nature” magazine.