What question did this study set out to answer?

The aim is to analyze the electronic properties and topological features of HgSe using magnetotransport measurements.

January 25, 2026

Berry Phase and Magnetotransport Evidences for Nontrivial Topology in the Electronic Band Structure of HgSe

Puntos clave

The aim is to analyze the electronic properties and topological features of HgSe using magnetotransport measurements.
Examined longitudinal and transverse magnetotransport effects in monocrystalline HgSe.
Measured electron concentration and mobility under specific electric and magnetic fields.
Analyzed Shubnikov-de Haas oscillations to study Landau levels.
Data indicated half-filling of the zeroth Landau level.
A nontrivial Berry phase was identified in the electronic spectrum.
Signatures of the chiral anomaly were observed, including the chiral magnetic effect and planar Hall effect.

Resumen

Longitudinal and transverse magnetotransport effects were investigated in a monocrystalline HgSe sample (electron concentration n = 4 × 10 cm, electron mobility µ = 1.2 × 10 cm V s) under a planar electric and magnetic field configuration. Analysis of Shubnikov-de Haas oscillations in both longitudinal and transverse magnetoresistance yielded data on the half-filling of the zeroth Landau level and revealed a nontrivial Berry phase. These signatures of the relativistic nature of the HgSe electronic spectrum are complemented by two key magnetotransport signatures of the chiral anomaly: the chiral magnetic effect and the planar Hall effect.

Me gusta

Guardar

Me gusta

Guardar

Berry Phase and Magnetotransport Evidences for Nontrivial Topology in the Electronic Band Structure of HgSe

Puntos clave

Resumen

Cite This Study