Axion electrodynamics in topological materials

• Published in: Journal of applied physics Vol. 129; no. 14
• Main Authors: Sekine, Akihiko, Nomura, Kentaro
• Format: Journal Article
• Language: English
• Published: Melville American Institute of Physics 14.04.2021
• Subjects: Applied physics; Condensed matter physics; Dark matter; Electrodynamics; Elementary particles; Magnetic properties; Metalloids; Quantum chromodynamics; Quarks; Topological insulators; Topological superconductors
• ISSN: 0021-8979; 1089-7550
• DOI: 10.1063/5.0038804

One of the intriguing properties characteristic to three-dimensional topological materials is the topological magnetoelectric phenomena arising from a topological term called the θ term. Such magnetoelectric phenomena are often termed the axion electrodynamics since the θ term has exactly the same form as the action describing the coupling between a hypothetical elementary particle, axion, and a photon. The axion was proposed about 40 years ago to solve the so-called strong CP problem in quantum chromodynamics and is now considered a candidate for dark matter. In this Tutorial, we overview theoretical and experimental studies on the axion electrodynamics in three-dimensional topological materials. Starting from the topological magnetoelectric effect in three-dimensional time-reversal invariant topological insulators, we describe the basic properties of static and dynamical axion insulators whose realizations require magnetic orderings. We also discuss the electromagnetic responses of Weyl semimetals with a focus on the chiral anomaly. We extend the concept of the axion electrodynamics in condensed matter to topological superconductors, whose responses to external fields can be described by a gravitational topological term analogous to the θ term.