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Ferroelectric Control of the Spin Texture in GeTe

Rinaldi, C., Varotto, S., Asa, M., Slawinska, J., Fujii, J., Vinai, G., Cecchi, S., Di Sante, D., Calarco, R., Vobornik, I., Panaccione, G., Picozzi, S. & Bertacco, R., May-2018, In : Nano Letters. 18, 5, p. 2751-2758 8 p.

Research output: Contribution to journalArticleAcademicpeer-review

  • Christian Rinaldi
  • Sara Varotto
  • Marco Asa
  • Jagoda Slawinska
  • Jun Fujii
  • Giovanni Vinai
  • Stefano Cecchi
  • Domenico Di Sante
  • Raffaella Calarco
  • Ivana Vobornik
  • Giancarlo Panaccione
  • Silvia Picozzi
  • Riccardo Bertacco

The electric and nonvolatile control of the spin texture in semiconductors would represent a fundamental step toward novel electronic devices combining memory and computing functionalities. Recently, GeTe has been theoretically proposed as the father compound of a new class of materials, namely ferroelectric Rashba semiconductors. They display bulk bands with giant Rashba-like splitting due to the inversion symmetry breaking arising from the ferroelectric polarization, thus allowing for the ferroelectric control of the spin. Here, we provide the experimental demonstration of the correlation between ferroelectricity and spin texture. A surface-engineering strategy is used to set two opposite predefined uniform ferroelectric polarizations, inward and outward, as monitored by piezoresponse force microscopy. Spin and angular resolved photoemission experiments show that these GeTe(111) surfaces display opposite sense of circulation of spin in bulk Rashba bands. Furthermore, we demonstrate the crafting of nonvolatile ferroelectric patterns in GeTe films at the nanoscale by using the conductive tip of an atomic force microscope. Based on the intimate link between ferroelectric polarization and spin in GeTe, ferroelectric patterning paves the way to the investigation of devices with engineered spin configurations.

Original languageEnglish
Pages (from-to)2751-2758
Number of pages8
JournalNano Letters
Volume18
Issue number5
Publication statusPublished - May-2018
Externally publishedYes

    Keywords

  • Germanium telluride, Rashba effect, ferroelectricity, spin-orbitronics, STRUCTURAL PHASE-TRANSITION, SEMICONDUCTORS, SPINTRONICS

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