于泽源：潜心科研，提升中微子振荡参数测量精度

Core Insights - The article emphasizes the importance of foundational research, advocating for strategic, forward-looking, and systematic investments in this area to enhance long-term support [1] Group 1: Neutrino Research Significance - The Jiangmen Neutrino Experiment, which began over a decade ago, aims to measure neutrino oscillation with unprecedented precision, addressing the mystery of neutrino mass ordering [2][4] - The experiment is a collaborative international project involving over 700 researchers from 17 countries, highlighting the global nature of scientific inquiry [3][6] Group 2: Technological Innovations - A novel method was developed to measure liquid levels in the experiment, improving accuracy by approximately 100 times compared to traditional techniques, which significantly boosted team confidence [3] - The experiment's first physical results, released in November 2025, demonstrated a 1.5 to 1.8 times improvement in the measurement precision of neutrino oscillation parameters, confirming the detector's performance met design expectations [3][6] Group 3: Future Directions and Applications - The Jiangmen Neutrino Experiment is designed for a lifespan of 30 years, with plans to continue exploring neutrino properties and their implications for understanding fundamental cosmic laws [4][6] - Research on neutrinos is expected to yield insights into various fields, including geoscience and astrophysics, potentially leading to groundbreaking discoveries [4][5]