所有标记为「particle-physics」的文章
IceCube天文台埋设在南极冰层中的5,000多个光传感器有助于探测高能中微子,为了解宇宙中最极端的事件提供线索。
ATLAS报告了大型强子对撞机上首次质子-氧碰撞测量,为改进地球大气中宇宙射线级联模拟提供了数据
粒子物理中一个长期悬而未决的问题依然没有答案:中微子究竟是否与其反粒子不同,还是说它们是马约拉纳粒子,本质上就是自己的反面
Universe Today 的一篇新文章回顾了帕维尔·切伦科夫如何把受辐射水中的微弱蓝光,变成物理学中最具代表性的现象之一。
一篇新的解说重新审视了物理学中最奇特的不对称之一:弱核力只与左手粒子相互作用,这一特性有助于放射性衰变、聚变以及恒星的存在成为可能。
对埃托雷·马约拉纳1937年想法的一次新阐释,正让现代物理学中最持久的问题之一再次受到关注:中微子是否可能是既是粒子又是它们自己的反粒子。
Two highly precise hydrogen experiments now agree with the smaller proton measurement that once shocked physics, strengthening the case that the particle’s radius is about 0.84 femtometres.
研究人员报告了一种受魔方解题逻辑启发的 AI 方法,能够简化粒子物理方程,将一种熟悉的谜题策略与高能理论中的棘手数学问题联系起来
After years of anomalies and speculation, recent null results have pushed many physicists to conclude that the electron-volt sterile neutrino likely does not exist.
CERN科学家首次用卡车运输了反物质,这是一个里程碑,可能有助于开展更精确的实验,研究物质与反物质之间的不对称性。
The 2025 Global Physics Photowalk winners offer a rare public look inside particle physics laboratories, turning detectors, cryostats, and experimental spaces into a visual story about discovery.
新一代深层地下中微子探测器可能很快捕捉到弥散超新星背景辐射——在太阳系形成前发生的每次恒星死亡的累积中微子光芒。
A detector on the floor of the Mediterranean Sea has recorded the most energetic neutrino ever observed, a ghost particle whose origin remains a profound mystery.
Deep canyons in the Andes serve as natural shields for detecting ultra-high-energy cosmic particles that could prove gravity is quantum.
US researchers at Fermilab have stored the first proton beams in a specialized accelerator, paving the way for next-generation particle colliders.
A series of experimental results from particle physics and cosmology are converging to challenge the Standard Model, potentially demanding an entirely new theory.
