唠科｜让量子现象“肉眼可见”——2025年诺贝尔物理学奖成果解读

Core Insights - The 2025 Nobel Prize in Physics was awarded for groundbreaking experiments that make quantum phenomena visible, paving the way for next-generation quantum technologies such as quantum cryptography, quantum computers, and quantum sensors [2][14]. Group 1: Award Winners - The laureates of the Nobel Prize in Physics are John Clarke, Michel H. Devoret, and John M. Martinis, all of whom are professors at prestigious universities in the United States [8][10][11]. Group 2: Key Achievements - The awarded research involved a series of pioneering experiments conducted in the 1980s at the University of California, Berkeley, where the scientists created a superconducting electrical circuit that demonstrated quantum tunneling and energy quantization on a macroscopic scale [22][24]. - The experiments showed that all charged particles in a superconductor could behave collectively as if they were a single particle, which is a significant advancement in understanding quantum mechanics [25][26]. Group 3: Quantum Mechanics Phenomena - The research highlighted the phenomenon of macroscopic quantum tunneling, where a system can "escape" a zero-voltage state and produce a measurable macroscopic effect, such as observable voltage [29][30]. - The findings draw parallels to the famous thought experiment "Schrödinger's cat," transforming abstract concepts into tangible electrical circuits that can be observed [32]. Group 4: Implications for Future Research - The Nobel Prize committee emphasized that this achievement opens the door to studying the quantum mechanical world on a larger scale, potentially leading to significant advancements in quantum technology [33].