Symmetry in quantum mechanics reveals deep connections to conservation laws, influencing both theoretical frameworks and ...

For decades, physicists have relied on the principle of symmetry to simplify and understand the complex behaviors of subatomic particles. Symmetry in physics basically means that some rules of nature ...

Just as many of us are struck by the beauty of symmetrical patterns in nature and art, Chen-Ning Yang had a deep feeling for ...

Japanese physicists have revived Kelvin’s old idea of cosmic knots, showing how these tangled fields might explain why matter ...

A groundbreaking experiment--reveals 'symmetry' in physics doesn't always behave as scientists once believed. Mississippi State Professor of Physics Dipangkar Dutta is a principal investigator on a ...

Symmetry and invariance lie at the heart of modern physical theories, serving as guiding principles in our understanding of the natural world. These ideas are central to elucidating conservation laws ...

Chen Ning Yang, a world-renowned and Nobel Prize-winning scientist who made revolutionary contributions to our understanding ...

Physicists propose that tangled cosmic “knots” formed after the Big Bang may explain why our universe is made of matter, not ...

The experiment involved infinitesimal particles of matter so slight and evanescent that they survived only a billionth of a billionth of a second. In their place they left still lighter particles that ...

Mississippi State Professor of Physics Dipangkar Dutta is a principal investigator on a groundbreaking experiment—revealing “symmetry” in physics doesn’t always behave as scientists once believed.