News

  • 3d-Brille-Breitbild

    13 Jul 2023

    “3D glasses” for topological materials: Using hi tech to illuminate quantum mysteries

    In a breakthrough akin to the effects of 3D cinema, scientists are using light particles to uncover the mysteries of electron behavior and propel our understanding of quantum materials forward. These materials, rich with potential for energy-efficient electronics and cutting-edge technology of tomorrow, are distinguished by their topological properties that could rarely be measured directly – until now.

  • Dreieckigehonigwaben-Abbildungctqmat

    22 May 2023

    Third funding period for Würzburg's Collaborative Research Center ToCoTronics

    The Collaborative Research Center ToCoTronics in condensed matter physics will be extended for four more years. The German Research Foundation is funding it with 12 million euros.

  • Preisfuergutelehre-2023-Simonmoser-Fotoelisabethmoser-1920x1080

    28 Mar 2023

    Innovative teaching award

    15 lecturers receive the "Prize for Good Teaching" from the Bavarian Ministry of Science. A physicist from ct.qmat at Würzburg is among them.

  • Pressebild-Mnbi6te10-Byjoergbandmann-1920x1080

    21 Mar 2023

    Surprise in the quantum world: Disorder leads to ferromagnetic topological insulator

    Magnetic topological insulators are an exotic class of materials that conduct electrons without any resistance at all and so are regarded as a promising breakthrough in materials science. Researchers from the Cluster of Excellence ct.qmat have achieved a significant milestone in the pursuit of energy-efficient quantum technologies by designing the ferromagnetic topological insulator MnBi6Te10.

  • Thumbnail-Exzitonen-Meilenstein-Jo-Rgbandmann

    10 Jan 2023

    Milestone for light-driven electronics: Excitons generated in a topological insulator for the first time

    An international team of scientists collaborating within the Würzburg-Dresden Cluster of Excellence ct.qmat has achieved a breakthrough in quantum research – the first detection of excitons in a topological insulator. The findings have been published in the journal Nature Communications.

  • Pressefoto-Portrait-Elenahassinger-Fototobiasritzctqmat-Dsc03179-1920x1080

    04 Nov 2022

    New quantum professor in Dresden: With record low temperatures into the hotspot of solid state physics

    Elena Hassinger has been appointed Professor of Low-Temperature Physics of Complex Electron Systems at the Cluster of Excellence ct.qmat. The professorship has been newly established at TU Dresden. The researcher is an expert in solid-state physics at very low temperatures down to 0.01 Kelvin (-273.14 °C). She studies unusual quantum phenomena that only occur in the freezing cold, with the focus currently being on cerium rhodium arsenic (CeRh2As2) – a promising unconventional superconductor.

  • Csm-1006erc-Grant-Dyakonov-F749c12bbf-Web

    07 Oct 2022

    ERC Advanced Grant for Vladimir Dyakonov

    With 2.5 million euros from the European Research Council, Professor Vladimir Dyakonov will be able to pursue the development of a novel quantum sensor: The physicist was awarded an ERC Advanced Grant.

  • Weiße Katze auf weißem Hintergrund. Die Katze trägt eine Camouflageähnliche Jacke in schwarz und weiß.

    02 Sept 2022

    New fur for the quantum cat: Entanglement of many atoms in a quantum material discovered for the first time

    Be it magnets or superconductors: materials are known for their various properties. However, these properties may change spontaneously under extreme conditions. Researchers at the Technische Universität Dresden and the Technische Universität München have discovered an entirely new type of such phase transitions. They display the phenomenon of quantum entanglement involving many atoms, which previously has only been observed in the realm of few atoms. The results were recently published in the scientific journal Nature.

  • Ctqmat-Laser-Illustrationchristiankroneck-1920x1080

    25 Aug 2022

    Laser network the size of a sand grain at the heart of pioneering achievement

    The development of a topological laser array by a research team of the Wuerzburg-Dresden Cluster of Excellence ct.qmat represents a pioneering achievement in physics. For this groundbreaking work, Sebastian Klembt from the Julius Maximilians University Wuerzburg has now been shortlisted for the prestigious “Falling Walls Science Breakthrough of the Year.”

  • Skyrmionen-Abb1-1920x1080

    30 May 2022

    Whirlwind in the material: Dresden physicist wins prize for world's first image of a 3D magnetic field

    A Dresden research team led by solid-state physicist Dr. Axel Lubk has succeeded in imaging the magnetic field of tiny magnetic nanovortices – called skyrmions – in three dimensions with a resolution of seven millionths of a millimeter. This is the first time ever that this has been achieved.

  • Bild-Teaser-Topology-96-1920x1980

    20 May 2022

    Almost everything is topological

    An international research team has discovered that topological electronic states are present in nearly every known material. The team’s discovery of ubiquitous band topology has been published in the journal Science.

  • Pressrelease-Teaserfig-Bachmann-2800x2100-96-1920x1080

    09 May 2022

    A ‘fast lane’ for electrons

    The study of ultra-pure materials still has many ways to surprise and delight! For delafossite metals it was shown that wires sculpted from the same single crystal have very different resistivities depending on the angle at which they are cut. From the fundamental physics point of view, the laws of bulk resistivity are being broken.

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