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Showing 1–12 of 12 results
Advanced filters: Author: Alexander V. Balatsky Clear advanced filters

  • Magnetic impurities break time reversal symmetry in topological insulators, but there has been disagreement between theory and experiment. Here, the authors study the response of topological states to magnetic dopants at the atomic level and show that, contrary to what generally believed, magnetic order and gapless states can coexist.

    • Paolo Sessi
    • Rudro R. Biswas
    • Alexander V. Balatsky
    ResearchOpen Access
    Nature Communications
    Volume: 7, P: 1-6

  • In condensed matter systems, the atoms, electrons or spins can sometimes arrange themselves in ways that result in unexpected properties but that cannot be detected by conventional experimental probes. Several historical and contemporary examples of such hidden orders are known and more are awaiting discovery, perhaps in the form of more complex composite, entangled or dynamical hidden orders.

    • Gabriel Aeppli
    • Alexander V. Balatsky
    • Nicola A. Spaldin
    Comments & Opinion
    Nature Reviews Materials
    Volume: 5, P: 477-479

  • The ability to excite extreme states of motion such as shock waves in nanomechanical resonators will provide new insights into the interactions between electrons and phonons.

    • Charles H. Mielke
    • Alexander V. Balatsky
    News & Views
    Nature Nanotechnology
    Volume: 3, P: 129-130

  • The phenomenology of multiferroic quantum criticality, where both ferroelectric and magnetic order parameters are tuned by quantum fluctuations, is drawn out. Non-thermal tuning parameters such as alloying and strain are explored and material realizations proposed.

    • Awadhesh Narayan
    • Andrés Cano
    • Nicola A. Spaldin
    Research
    Nature Materials
    Volume: 18, P: 223-228

  • Methodology adapted from data science sparked the field of materials informatics, and materials databases are at the heart of it. Applying artificial intelligence to these databases will allow the prediction of the properties of complex organic crystals.

    • R. Matthias Geilhufe
    • Bart Olsthoorn
    • Alexander V. Balatsky
    Comments & Opinion
    Nature Physics
    Volume: 17, P: 152-154

  • Plastic deformation induces robust magnetism in SrTiO3, which is completely absent in pristine samples. This magnetism coexists with ferroelectric order, showcasing plastic deformation as a powerful tool for manipulating quantum material properties.

    • Xi Wang
    • Anirban Kundu
    • Avraham Klein
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-10