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Missing link between new topological phases of matter discovered

(Nanowerk News) HZB-Physicists at BESSY II have investigated a class of materials that exhibit characteristics of topological insulators. During these studies they discovered a transition between two different topological phases, one of which is ferroelectric, meaning a phase in the material that exhibits spontaneous electric polarisation and can be reversed by an external electric field (Nature Communications, "Topological quantum phase transition from mirror to time reversal symmetry protected topological insulator").
This could also lead to new applications such as switching between differing conductivities.
enhanced bismuth doping
The Bismut doping is enhanced from 0% (left) to 2.2% (right). Measurements at BESSY II show that this leads to increased bandgaps. (Image: Helmholtz-Zentrum Berlin für Materialien und Energie)
The HZB researchers studied crystalline semiconductor films made of a lead, tin, and selenium alloy (PbSnSe) that were doped additionally with tiny amounts of the element bismuth. These semiconductors belong to the new class of materials called topological insulators, materials that conduct very well at their surfaces while behaving as insulators internally. Doping with 1-2 per cent bismuth has enabled them to observe a new topological phase transition now. The sample changes to a particular topological phase that also possesses the property of ferroelectricity. This means that an external electric field distorts the crystal lattice, whereas conversely, mechanical forces on the lattice can create electric fields.
The effect can be used to develop new functionality, which is also of interest for potential applications. Ferroelectric phase-change materials are employed in DVDs and flash memories, for example. An electrical voltage displaces atoms in the crystal, transforming the insulating material into a metallic one.
The bismuth doping in the PbSnSe films investigated at HZB served as a perturbation. The number of electrons in bismuth does not fit well in the periodic arrangement of atoms within the PbSnSe crystal. "Tiny changes in the atomic structure give rise to fascinating effects in this class of materials", explains HZB researcher Dr. Jaime Sánchez-Barriga, principal investigator coordinating the project.
Following detailed analyses of the measurements, only one conclusion remained: the bismuth doping causes a ferroelectric distortion in the lattice that also changes the allowable energy levels of the electrons. "This problem kept us puzzled during several beamtimes until we reproduced the scientific results on a whole new set of samples", adds Sánchez-Barriga. "Potential applications could arise through ferroelectric phases - ones that have not been thought of before. Lossless conduction of electricity in topological materials can be switched on and off at will, by electrical pulses or by mechanical strain", explains Prof. Oliver Rader, head the department Materials for Green Spintronics at HZB.
Source: Helmholtz-Zentrum Berlin für Materialien und Energie
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