Quantum Anomalous Hall Effect In Magnetic Topological Insulators at Danielle Andrew blog

Quantum Anomalous Hall Effect In Magnetic Topological Insulators. The quantized version of the anomalous hall effect has been predicted to occur in magnetic topological insulators, but the experimental realization has been challenging. The quantum anomalous hall effect (qahe) is one of the hallmark phenomena associated with topological properties of the electronic band. In a magnetic topological insulator, nontrivial band topology combines with magnetic order to produce exotic states of matter, such as quantum anomalous hall (qah) insulators and axion. Over the last few years, an intrinsic antiferromagnetic topological insulator mnbi 2 te 4 was theoretically (in 2019) and experimentally (in 2020). Here, we give a theoretical introduction to the quantum anomalous hall (qah) effect based on magnetic topological insulators.

The quantum anomalous hall effect (qahe) is one of the hallmark phenomena associated with topological properties of the electronic band. Over the last few years, an intrinsic antiferromagnetic topological insulator mnbi 2 te 4 was theoretically (in 2019) and experimentally (in 2020). Here, we give a theoretical introduction to the quantum anomalous hall (qah) effect based on magnetic topological insulators. In a magnetic topological insulator, nontrivial band topology combines with magnetic order to produce exotic states of matter, such as quantum anomalous hall (qah) insulators and axion. The quantized version of the anomalous hall effect has been predicted to occur in magnetic topological insulators, but the experimental realization has been challenging.

Figure 1 from ThreeDimensional Quantum Anomalous Hall Effect in

Quantum Anomalous Hall Effect In Magnetic Topological Insulators The quantized version of the anomalous hall effect has been predicted to occur in magnetic topological insulators, but the experimental realization has been challenging. Here, we give a theoretical introduction to the quantum anomalous hall (qah) effect based on magnetic topological insulators. In a magnetic topological insulator, nontrivial band topology combines with magnetic order to produce exotic states of matter, such as quantum anomalous hall (qah) insulators and axion. The quantum anomalous hall effect (qahe) is one of the hallmark phenomena associated with topological properties of the electronic band. Over the last few years, an intrinsic antiferromagnetic topological insulator mnbi 2 te 4 was theoretically (in 2019) and experimentally (in 2020). The quantized version of the anomalous hall effect has been predicted to occur in magnetic topological insulators, but the experimental realization has been challenging.