Area D - Tailoring Topological Functionality

The main research objectives of Area D are devoted to the application of topological protection of spin and charge transport in topological materials, the manipulation of unconventional fractionalized excitations as a first step towards topological quantum computing, a better control of entanglement of protected quantum states by exploiting topological properties, the application of competing many-body states in complex quantum materials in novel device concepts, the usage of topological protection in photonic devices, and the exploration of topolectrical circuitry design.

Recent Publications

  • 02 Apr 2021


    Room temperature coherent control of spin defects in hexagonal boron nitride

  • 18 Feb 2021

    npj 2D Materials and Applications

    Freestanding few-layer sheets of a dual topological insulator

  • 16 Nov 2020

    ACS Nano

    Photophysics and Electronic Structure of Lateral Graphene/$MoS_2$ and Metal/$MoS_2$ Junctions

  • 13 Nov 2020

    Phys. Rev. B

    Observation of tunable single-atom Yu-Shiba-Rusinov states

  • 28 Oct 2020

    Nature Physics

    Interacting topological edge channels

  • 19 Jul 2020

    Advanced Materials

    Wafer-Scale High-Quality Microtubular Devices Fabricated via Dry-Etching for Optical and Microelectronic Applications

  • 18 May 2020

    Applied Physics Letters

    Electronic structure of epitaxial perovskite films in the two-dimensional limit: Role of the surface termination

  • 12 May 2020

    npj 2D Materials and Applications

    Tuning transport across $MoS_2$/graphene interfaces via as-grown lateral heterostructures

  • 24 Feb 2020

    Nature Materials

    Initialization and read-out of intrinsic spin defects in a van der Waals crystal at room temperature

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