News

  • 20210226-Imagevideountertitel-Exnl-Fotowebsedge

    04 Mar 2021

    Quantum world for everyone!

    A six-minute image video is now available with both German and English subtitles on the YouTube channel of the Cluster of Excellence ct.qmat. 

  • 20210121-Schwarzeloecheraushalbmetallen-Abbildungpixelwg-Joergbandmann-1920x1080

    22 Jan 2021

    1 million Euros for black holes made from semimetals

    The early career research team leader Tobias Meng launches a three-year research project connecting the physics of semimetals to the theory of black holes. The German-Luxembourg research project has just received funding of roughly one million Euros.

  • 20210115-Felser-Abb-1920x1080

    14 Jan 2021

    Find a needle in the haystack: A new high-throughput method for magnetic quantum materials

    With the help of a novel algorithm, magnetic topological compounds can now be searched for automatically. The computer method developed is considered a milestone for research into topological materials and paves the way for systematic identification of such materials, which have so far only been determined on a case-by-case basis.

  • Slider-Schaufenster

    11 Sep 202031 Dec 2021

    Opening of the exhibition SHOWCASES OF RESEARCH

    From 12 September on, the Technische Sammlungen will be showcasing cutting-edge research from Dresden. An exhibition in cooperation with the Cluster of Excellence of TU Dresden ct.qmat – Complexity and Topology in Quantum Matter, the Leibniz Institute for Solid State and Materials Research, and the Barkhausen Institute as well as DRESDEN-concept, and the City of Dresden.

  • Pixabay-Fractal-1147253-1920-Webheader

    22 Jun 2020

    With a bang towards new quantum technologies

    Quantum scientists welcome the German government’s initiative to promote quantum technologies.

  • Initalization-Readout-Spin

    02 Mar 2020

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

    The Dyakonov group observed spin centers for the first time experimentally in 2D-materials. As decribed in Nature Materials, they have potential as possible roomtemperature qbits.

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