As generalizations of Haldane model, these models support topologicalinsulator and semimetal phases featuring high Chern numbers.
2
We report on magneto-optical studies of Bi2Se3, a representative member of the 3D topologicalinsulator family.
3
We theoretically study tunneling of Cooper pairs from a superconductor spanning a two-dimensional topologicalinsulator strip into its helical edge states.
4
This provides a dynamical mechanism to obtain a topologicalinsulator in the presence of interactions, analogous to the Su-Schrieffer-Heeger model for electrons.
5
In this regime, our atomic gas corresponds to a phase of matter where Maxwell electrodynamics is replaced by axion electrodynamics: a 3D topologicalinsulator.
6
The improvement should be attributed to the intrinsic suppressed electron backscattering in a Bi 2 Te 3 topologicalinsulator.
7
In this work, we probe quantum transport in MnBi 2 Te 4 thin flakes-a topologicalinsulator with intrinsic magnetic order.
8
We demonstrate the controllable local manipulation of the Dirac surface state in a topologicalinsulator, Bi2Te2Se, which has suppressed bulk carrier density.
9
Our results establish that Bi2Te3 is a simple model system for the three-dimensional topologicalinsulator with a single Dirac cone on the surface.
10
In material systems, unambiguous signatures of topological order exist for topologicalinsulators and quantum Hall devices.
11
In addition to a bulk energy gap, topologicalinsulators accommodate a conducting, linearly dispersed Dirac surface state.
12
The family of three-dimensional topologicalinsulators opens new avenues to discover novel photophysics and to develop novel types of photodetectors.
13
Topology-protected surface transport of ultimate thinness in three-dimensional topologicalinsulators (TIs) is breaking new ground in quantum science and technology.
14
Three-dimensional topologicalinsulators have been demonstrated in recent years, which possess intriguing gapless, spin-polarized Dirac states with linear dispersion only on the surface.
15
Three-dimensional topologicalinsulators are a new state of quantum matter with a bulk gap and odd number of relativistic Dirac fermions on the surface.