Core Insights - Zhang Wenzhuo, founder of KuaiMi Quantum, discussed the three main directions of quantum technology: quantum computing, quantum communication and quantum cryptography, and quantum sensing and precision measurement [1][2] - The difficulty of achieving quantum computing growth is significant, as each additional logical qubit requires entanglement with all previous qubits, making the increase in qubit numbers exponential and effectively negating Moore's Law [1] - Quantum communication and quantum cryptography are seen as proactive measures against future threats posed by quantum computers, while quantum sensing is crucial in geopolitical contexts [2] Quantum Computing - The growth of qubit numbers in leading institutions is primarily linear due to the exponential difficulty of adding qubits, which sacrifices Moore's Law [1] - The allure of quantum computing remains strong, akin to the pursuit of controlled nuclear fusion, attracting attention and capital despite its current impracticality [1] Quantum Communication and Cryptography - The current focus in quantum communication and cryptography is on providing "true random" numbers to counter potential threats from quantum computers [2] - Quantum encryption is essential to prevent remote control by adversaries, which could lead to severe accidents [2] Quantum Sensing and Precision Measurement - Quantum sensing is vital in scenarios where satellite signals are blocked, as superior inertial navigation capabilities can enhance strategic advantages in military contexts [2] - The integration of accurate quantum sensors into robotics is necessary for them to perform tasks beyond human capabilities, emphasizing the importance of quantum technology in future applications [2]

由成龙 《南华早报》 虽然电子科技大学公开师资名单中暂未更新其任职信息，但他的谷歌学术个人主页已明确将这所高校列 为当前任职单位。 截至目前，由成龙本人尚未就其归国任职一事作出公开回应。 据报道，由成龙2019年在路易斯安那州立大学获得物理学博士学位，其博士阶段的研究方向为如何利用 光将测量技术推向物理极限。这项研究成果为超精密导航传感器、引力波探测等一系列技术奠定了理论 基础。 博士毕业后，他留校进入该校量子光子学实验室从事博士后研究工作，并于2023年晋升为助理研究教 授。 在学术研究期间，由成龙不仅深耕理论与实验探索，还与美国国家标准与技术研究院（NIST）等多家 美国政府核心科研机构开展合作。他参与的研究采用多光子技术，实现了对极微小变化的高精度测量， 其精准度远超传统技术手段。 他的研究成果获得了国际学界的广泛认可：曾斩获美国光学学会（Optica）埃米尔·沃尔夫优秀论文奖， 拿下日本国立信息通信技术研究所的研究奖学金，在中美两国拥有多项专利，同时还担任国际顶级光学 会议——激光与光电子会议（CLEO）的技术委员会委员。 【文/观察者网 张菁娟】据香港英文媒体《南华早报》19日报道，深耕量子传感与精 ...