project . 2017 - 2022 . On going

TOPMAT

Topological Materials: New Fermions, Realization of Single Crystals and their Physical Properties
Open Access mandate for Publications European Commission
  • Funder: European CommissionProject code: 742068 Call for proposal: ERC-2016-ADG
  • Funded under: H2020 | ERC | ERC-ADG Overall Budget: 2,070,000 EURFunder Contribution: 2,070,000 EUR
  • Status: On going
  • Start Date
    01 Jul 2017
    End Date
    30 Jun 2022
  • Detailed project information (CORDIS)
  • Open Access mandate
    Research Data: No
Description
The topologies of the electronic and magnetic structure in reciprocal and real space underlies much of condensed matter physics. Moreover, the properties of single crystals with particular topological electronic structures can mimic phenomena found in high energy physics and cosmology. New classes of quantum materials are found in insulators and semimetals that exhibit non-trivial topologies: they display a plethora of novel phenomena including: topological surface states; new Fermions such as Weyl, Dirac or Majorana; and non-collinear spin textures such as Skyrmions. A hallmark of many of these new quantum properties that are derived from fundamental symmetries...
Partners
Description
The topologies of the electronic and magnetic structure in reciprocal and real space underlies much of condensed matter physics. Moreover, the properties of single crystals with particular topological electronic structures can mimic phenomena found in high energy physics and cosmology. New classes of quantum materials are found in insulators and semimetals that exhibit non-trivial topologies: they display a plethora of novel phenomena including: topological surface states; new Fermions such as Weyl, Dirac or Majorana; and non-collinear spin textures such as Skyrmions. A hallmark of many of these new quantum properties that are derived from fundamental symmetries...
Partners
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