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

  • 23.03.2020
    14:37 Uhr

    Information geometry in quantum field theory: lessons from simple examples

  • 23.03.2020
    14:17 Uhr

    Heterogeneous catalysis at the surface of topological materials

  • 23.03.2020
    13:42 Uhr

    In Situ Induction of Strain in Iron Phosphide (FeP2) Catalyst for Enhanced Hydroxide Adsorption and

  • 23.03.2020
    11:50 Uhr

    Active viscoelasticity of odd materials

  • 23.03.2020
    11:40 Uhr

    Topological Josephson Heat Engine

  • 26.07.2019

    Observation of bulk boundary correspondence breakdown in topolectrical circuits

    The study of the laws of nature has traditionally been pursued in the limit of isolated systems, where energy is conserved.

  • 10.06.2019

    Room Temperature Initialisation and Readout of Intrinsic Spin Defects in a Van der Waals Crystal

    Optically addressable spins in widebandgap semiconductors have become one of the most prominent platforms for exploring fundamental quantum phenomena.

  • 20.05.2019

    Interacting topological edge channels

    Electrical currents in a quantum spin Hall insulator are confined to the boundary of the system.

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