Emmy Noether showed that fundamental physical laws are just a consequence of simple symmetries. A century later, her insights ...

A new study published in Scientific Reports simulates particle creation in an expanding universe using IBM quantum computers, demonstrating the digital quantum simulation of quantum field theory ...

In physics, the term "isotropy" means a system ... Scientists consider multiple methods, one of which involves injecting electromagnetic waves into ... When two probes orbiting the sun aligned ...

Protons are far from simple particles — they are swirling cauldrons of quarks, gluons, and quantum entanglement. Scientists ...

Feb. 6, 2025 — A team of international researchers has developed an innovative approach to uncover the secrets of dark matter in the cosmos. They are searching for dark matter using atomic ...

By observing tiny ripples in spacetime called "gravitational waves" that propagate away from colliding black holes, ...

The course describes basic electrical and magnetic phenomena, as well as laws for electrical circuits, both at direct current and alternating current. The course gives a thorough introduction to ...

Feb. 6, 2025 — A team of international researchers has developed an innovative approach to uncover the secrets of dark matter in the cosmos. They are searching for dark matter using atomic ...

American physicist and Nobel Laureate, Richard Feynman, gave a lecture at the Massachusetts Institute of Technology (MIT) near Boston, in which he outlined a ...

Neil deGrasse Tyson is arguably the world’s most famous astrophysicist who has this affable delivery to explain the ...

泡利是量子论、量子力学和量子场论的构造主角之一。不相容原理、矩阵力学解氢原子问题、泡利方程、自旋—统计定理以及预言中微子等是人们熟知的泡利的几项成就。此外，就对物理学的理解与阐释能力而言，泡利也是罕有其匹的。关注泡利的成长过程有助于我们理解什么是合格 ...

Dark matter is more than five times as abundant as all the visible matter in the universe. So why can't we see any of it?