Dark Matter Candidate Could Generate String-Like Entities in Exotic Materials

Axion Elementary Particle

An artist’s impression of an axion, a hypothetical elementary particle, which has been invoked to explain why charge–parity symmetry is preserved in quantum chromodynamics. They have since been proposed as a leading candidate for dark matter. Credit: © RAMON ANDRADE 3DCIENCIA/ SCIENCE PHOTO LIBRARY

Calculations show how theoretical ‘axionic strings’ could create odd behavior if produced in exotic materials in the lab.

A hypothetical particle that could solve one of the biggest puzzles in cosmology just got a little less mysterious. A RIKEN physicist and two colleagues have revealed the mathematical underpinnings that could explain how so-called axions might generate string-like entities that create a strange voltage in lab materials.

Axions were first proposed in the 1970s by physicists studying the theory of quantum chromodynamics, which describes how some elementary particles are held together within the atomic nucleus. The trouble was that this theory predicted some bizarre properties for known particles that are not observed. To fix this, physicists posited a new particle—later dubbed the axion, after a brand of laundry detergent, because it helped clean up a mess in the theory.

Physicists soon realized axions could clear up a cosmic conundrum too. More than 80% of the matter in the Universe is thought to be made up of a mysterious invisible substance, dubbed dark matter. “Axions are a candidate for dark matter, but we have not found them yet,” says Yoshimasa Hidaka, of the RIKEN Interdisciplinary Theoretical and Mathematical Sciences Program. Axions might have the right properties, so physicists have been searching for signs they exist in numerous experiments. In June 2020, the XENON1T experiment at the Gran Sasso Laboratory in Italy reported hints they may have detected the axion—but that result has yet to be confirmed.

But there is another arena where axion properties can be studied. Physicists can prepare exotic materials—called topological insulators—in the lab, which display strange properties, such as conducting electricity on their surfaces while remaining electrical insulators within. Such materials display other weird behavior. Sometimes, their electrons group together and move in such a way that the material appears to be made from ‘quasiparticles’ with unusual properties. This can create an unexpected voltage across the material, called the anomalous Hall effect.

The axion is also predicted to arise in this way, in topological insulators, where it should interact with particles of light, or photons, in a different way to regular particles.

Hidaka and his two colleagues have now examined the theory governing the interaction between axions and photons. Even though axions are point-like particles, the team calculated that within materials, light actually interacts with extended thread-like configurations made of axions, called axionic strings. That would lead to the anomalous Hall effect, which is observed in experiments.

“We have found the underlying mathematical structure for the phenomenon,” says Hidaka.

Reference: “Higher-form symmetries and 3-group in axion electrodynamics” by Yoshimasa Hidaka, Muneto Nitta and Ryo Yokokura, 4 August 2020, Physics Letters B.
DOI: 10.1016/j.physletb.2020.135672


View Comments


Recent Posts

Incredible Telescope View Captures DART Asteroid Impact

On Monday, September 26, 2022, at 7:14 p.m. EDT (23:14 UTC), NASA's DART spacecraft successfully…

October 3, 2022

New Air Filter Features Excellent Performance and Endurance in Harsh Environments

New air filter design promises strong potential for applications in automobiles and industry. A high-performance…

October 3, 2022

Advancing Structural Biology With Novel Cell-Free Protein Crystallization Method

Tokyo Tech developed a new cell-free protein crystallization (CFPC) method that includes direct protein crystallization…

October 3, 2022

Which Grains You Eat Can Impact Your Risk of Premature Heart Disease

A new study found eating refined grains was associated with an increased risk of premature…

October 3, 2022

Hubble Captures Spectacular Interacting Galaxies

The two spectacular interacting galaxies making up the pair known as Arp-Madore 608-333 seem to…

October 3, 2022

Our Immune System Is No Match – Coronavirus Protein Caught Severing Critical Immunity Pathway

Powerful X-rays from the SLAC synchrotron show that the fundamental wiring of our immune system…

October 2, 2022