一个主要的中微子实验 发现有违反CP的暗示 可能解释物质在宇宙中的支配地位 A major neutrino experiment finds hints of CP violation, possibly explaining matter's dominance in the universe.

NOvA 和 T2K 中微子实验之间的重大合作产生了迄今为止最精确的中微子振荡测量，完善了对中微子质量有序和潜在 CP 对称性破坏的见解。 A major collaboration between the NOvA and T2K neutrino experiments has produced the most precise measurement of neutrino oscillations to date, refining insights into neutrino mass ordering and potential CP symmetry violation. 联合分析结合了美国和日本探测器的数据,发现有迹象表明,如果中微子反转质量命令,就可能发生CP违反情况,从而可能解释物质为何在宇宙中主宰反物质。 The joint analysis, combining data from detectors in the U.S. and Japan, shows hints that CP violation may occur if neutrinos have inverted mass ordering—offering a possible explanation for why matter dominates over antimatter in the universe. 虽然确切的批量顺序仍未解决,但调查结果突出表明了国际科学合作的力量,并推动了对基本物理学的理解。 While the exact mass ordering remains unresolved, the findings highlight the power of international scientific cooperation and advance the quest to understand fundamental physics.