A team of physicists at the Okinawa Institute of Science and Technology Graduate University (OIST) has predicted the existence of a new kind of spin liquid. A spin liquid is an exotic phenomenon that intrigues scientists: it is a magnetic material in which the magnetism of the atoms fluctuates continuously between different directions. Their theoretical discovery found confirmation through computer simulation. Notably, this mathematical description of a spin liquid shares important similarities with a gauge symmetry, which is a key element in the way physics describes the world. The researchers, all from OIST Theory of Quantum Matter Unit, published their results in Nature Communications.
Spin liquids are well known to physicists. The name ‘spin liquid’ is misleading, as a spin liquid is a solid that is liquid only from the point of view of the directions of its atoms’ magnetism. The direction of an atom’s magnetism is defined by the magnetism that originates from the rotation of the electrons around the atom’s nucleus. In a visual representation of an atom, the magnetism’s direction can be drawn as an arrow, which points in a specific direction of space.
At high temperature, the arrows inside a given material typically point in random directions: the magnetism of each atom is different. When the material is cooled down, the arrows usually arrange themselves in a repeating pattern. A spin liquid is a specific type of magnetic material in which the atoms’ directions keep fluctuating even at low temperatures.
Spin liquids are hard to pin down because they lack the regular repeating patterns of other magnets. Being able to predict the existence of a new kind of spin liquid is then a very important achievement. The new spin liquid theoretically discovered by the scientists is characterized by a unique internal structure describing how the magnetism of each atom relates to the magnetism of those around it.
The finding is significant because there is a strong relationship between the scientists’ mathematical description of the spin liquid and a gauge symmetry. Gauge symmetries are the way in which physicists understand the fundamental forces of nature, such as electromagnetism. Finding gauge symmetries in spin liquids is interesting because it reveals deep connections between different branches of physics. These connections have historically fostered new understandings of how we interpret reality from the physicists’ point of view.