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23.02.2023 13:07

Real-life „quantum molycircuits“ using exotic nanotubes

Bastian Schmidt Präsidialabteilung, Bereich Kommunikation & Marketing
Universität Regensburg

    Real-life „quantum molycircuits“ using exotic nanotubes

    Molybdenum disulfide MoS2 is a groundbreaking material for electronics applications. As a two-dimensional layer similar to graphene, it is an excellent semiconductor, and can even become intrinsically superconducting under the right conditions. It's not particularly surprising that science fiction authors have already been speculating about „molycircs“, fictional computer circuits built from MoS2, for years – and that physicists and engineers are directing huge research efforts at this material.
    At University of Regensburg, we have many years of expertise with diverse quantum materials – in particular also with carbon nanotubes, tube-like macromolecules made from carbon atoms alone. „It was an obvious next step to now focus on MoS2 and its fascinating properties,“ so Dr. Andreas K. Hüttel, head of the research group „Nanotube Electronics and Nanomechanics“ in Regensburg. In cooperation with Prof. Dr. Maja Remškar, Jožef Stefan Institut Ljubljana, a specialist in the crystalline growth of molybdenum disulfide nanomaterials, his research group started working on quantum devices based on MoS2 nanotubes.
    „It turns out that MoS2 makes quantum confinement, i.e., discrete electronic states as you would need for qubits and quantum computers, very difficult to reach with flat flakes on a chip. That is exactly why we are interested in these exotic nanotubes. The tubes can be grown clean and straight, with diameters down to 20nm – and will then automatically give you the small structure sizes that you need.“
    The initial challenge was to make good metallic contacts. Useful metals with low contact resistances tend to react with the MoS2 surface and destroy its crystal structure, a difficulty that affects also „flat“ MoS2 and is one of the main reasons why not many complex circuits exist there yet. For nanotubes, with small surface areas, this difficulty used to be even more pressing. „Now finally we obtain devices which remain electrically transparent even in the low temperature range typically needed for quantum computation, and which leave the molybdenum disulfide intact,“ so Dr. Hüttel.
    And that's not all – the structure sizes immediately came into play. „So far, for practical reasons we used rather large nanotubes and nanoribbons. Still, we can show that in our low temperature setup, at temperatures below 0.1K as are used in many quantum computing approaches, current passes through discrete quantum states in our chip – and that is a big step towards controllable charge, spin, or even valley qubits in MoS2.“


    Wissenschaftliche Ansprechpartner:

    PD Dr. Andreas K. Hüttel
    Institute for Experimental and Applied Physics
    University of Regensburg
    93040 Regensburg, Germany;
    E-Mail: andreas.huettel@ur.de


    Originalpublikation:

    "Non-Destructive Low-Temperature Contacts to MoS2 Nanoribbon and Nanotube Quantum Dots"
    Robin T. K. Schock, Jonathan Neuwald, Wolfgang Möckel, Matthias Kronseder, Luka Pirker, Maja Remškar, and Andreas K. Hüttel
    Advanced Materials, doi:10.1002/adma.202209333 (2023)
    https://onlinelibrary.wiley.com/doi/10.1002/adma.202209333


    Bilder

    Low temperature setup during initial assembly.
    Low temperature setup during initial assembly.
    Dr. Andreas K. Hüttel
    Dr. Andreas K. Hüttel, Univ. Regensburg

    Electron microscope image of as-grown MoS2 nanomaterial, with flakes, ribbons, and nanotubes.
    Electron microscope image of as-grown MoS2 nanomaterial, with flakes, ribbons, and nanotubes.
    Dr. Luka Pirker
    Dr. Luka Pirker, IJS Ljubljana


    Merkmale dieser Pressemitteilung:
    Journalisten, Wissenschaftler
    Physik / Astronomie
    überregional
    Forschungsergebnisse, Forschungsprojekte
    Englisch


     

    Low temperature setup during initial assembly.


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    Electron microscope image of as-grown MoS2 nanomaterial, with flakes, ribbons, and nanotubes.


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