Litcius/Paper detail

Realizing Valley-Polarized Energy Spectra in Bilayer Graphene Quantum Dots via Continuously Tunable Berry Phases

Ya-Ning Ren, Qiang Cheng, Qing‐Feng Sun, Lin He

2022Physical Review Letters23 citationsDOI

Abstract

The Berry phase plays an important role in determining many physical properties of quantum systems. However, tuning the energy spectrum of a quantum system via Berry phase is comparatively rare because the Berry phase is usually a fixed constant. Here, we report the realization of an unusual valley-polarized energy spectra via continuously tunable Berry phases in Bernal-stacked bilayer graphene quantum dots. In our experiment, the Berry phase of electron orbital states is continuously tuned from about π to 2π by perpendicular magnetic fields. When the Berry phase equals π or 2π, the electron states in the two inequivalent valleys are energetically degenerate. By altering the Berry phase to noninteger multiples of π, large and continuously tunable valley-polarized energy spectra are realized. Our result reveals the Berry phase's essential role in valleytronics and the observed valley splitting, on the order of 10 meV at a magnetic field of 1 T, is about 100 times larger than Zeeman splitting for spin, shedding light on graphene-based valleytronics.

Topics & Concepts

Geometric phaseValleytronicsBerry connection and curvatureCondensed matter physicsPhysicsBilayer grapheneDegenerate energy levelsZeeman effectPhase (matter)GrapheneMagnetic fieldQuantum mechanicsSpintronicsFerromagnetismGraphene research and applicationsQuantum and electron transport phenomenaTopological Materials and Phenomena