#+HashtagPLUS
In

Menu

Post image 1
Post image 2
Post image 3
Post image 4
Post image 5
Post image 6
Post image 7
Post image 8
Post image 9
Post image 10
Post image 11
Post image 12
Post image 13
Post image 14
Post image 15
Post image 16
Post image 17
Post image 18
Post image 19
Post image 20
Post image 21
Post image 22
Post image 23
Post image 24
1 / 24
0

Symmetry says these crystal vibrations can never mix, but an exotic quantum phase rewrites the rules

phys.org·Marius Hoffmann·29 days ago
#B8m9bkOK
#icon_clock#icon_close#icon_comment#science#icon_twitter#vibrations
Reading 0:00
15s threshold

Illuminating the crystal with light reveals regions where clusters adopt opposite orientations and uncovers interactions of the collective motion of the quantum phase and atomic vibrations. Credit: Jörg M. Harms Symmetry is one of the most fundamental principles in nature. It describes the rules that make an object look unchanged after a rotation, reflection, or other transformations. In materials, symmetry governs how atoms and electrons are arranged, and how they move together. Crucially, symmetry can even prevent certain collective atomic motions (vibrations) from interacting at all: some are simply forbidden to talk to each other. But what if those symmetry restrictions are not as rigid as they seem? Symmetry rules loosened by electrons A new study in Nature Physics shows that these constraints can be partially lifted.…

Continue reading — create a free account

Join HashtagPLUS to read full articles, follow hashtags, vote, and join the conversation.

Create free accountLog in
Read More