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Low voltage control of exchange coupling in a ferromagnet-semiconductor quantum well hybrid structure.
Korenev, V L; Kalitukha, I V; Akimov, I A; Sapega, V F; Zhukov, E A; Kirstein, E; Ken, O S; Kudlacik, D; Karczewski, G; Wiater, M; Wojtowicz, T; Ilyinskaya, N D; Lebedeva, N M; Komissarova, T A; Kusrayev, Yu G; Yakovlev, D R; Bayer, M.
Affiliation
  • Korenev VL; Ioffe Institute, Russian Academy of Sciences, 194021, St. Petersburg, Russia. korenev.orient@mail.ioffe.ru.
  • Kalitukha IV; Ioffe Institute, Russian Academy of Sciences, 194021, St. Petersburg, Russia.
  • Akimov IA; Ioffe Institute, Russian Academy of Sciences, 194021, St. Petersburg, Russia. ilja.akimov@tu-dortmund.de.
  • Sapega VF; Experimentelle Physik 2, Technische Universität Dortmund, D-44227, Dortmund, Germany. ilja.akimov@tu-dortmund.de.
  • Zhukov EA; Ioffe Institute, Russian Academy of Sciences, 194021, St. Petersburg, Russia.
  • Kirstein E; Ioffe Institute, Russian Academy of Sciences, 194021, St. Petersburg, Russia.
  • Ken OS; Experimentelle Physik 2, Technische Universität Dortmund, D-44227, Dortmund, Germany.
  • Kudlacik D; Experimentelle Physik 2, Technische Universität Dortmund, D-44227, Dortmund, Germany.
  • Karczewski G; Ioffe Institute, Russian Academy of Sciences, 194021, St. Petersburg, Russia.
  • Wiater M; Experimentelle Physik 2, Technische Universität Dortmund, D-44227, Dortmund, Germany.
  • Wojtowicz T; Institute of Physics, Polish Academy of Sciences, PL-02668, Warsaw, Poland.
  • Ilyinskaya ND; International Research Centre MagTop, Institute of Physics, Polish Academy of Sciences, PL-02668, Warsaw, Poland.
  • Lebedeva NM; International Research Centre MagTop, Institute of Physics, Polish Academy of Sciences, PL-02668, Warsaw, Poland.
  • Komissarova TA; Ioffe Institute, Russian Academy of Sciences, 194021, St. Petersburg, Russia.
  • Kusrayev YG; Ioffe Institute, Russian Academy of Sciences, 194021, St. Petersburg, Russia.
  • Yakovlev DR; Ioffe Institute, Russian Academy of Sciences, 194021, St. Petersburg, Russia.
  • Bayer M; Ioffe Institute, Russian Academy of Sciences, 194021, St. Petersburg, Russia.
Nat Commun ; 10(1): 2899, 2019 Jul 01.
Article in En | MEDLINE | ID: mdl-31263145
ABSTRACT
Voltage control of ferromagnetism on the nanometer scale is highly appealing for the development of novel electronic devices with low power consumption, high operation speed, reliable reversibility and compatibility with semiconductor technology. Hybrid structures based on the assembly of ferromagnetic and semiconducting building blocks are expected to show magnetic order as a ferromagnet and to be electrically tunable as a semiconductor. Here, we demonstrate the electrical control of the exchange coupling in a hybrid consisting of a ferromagnetic Co layer and a semiconductor CdTe quantum well, separated by a thin non-magnetic (Cd,Mg)Te barrier. The electric field controls the phononic ac Stark effect-the indirect exchange mechanism that is mediated by elliptically polarized phonons emitted from the ferromagnet. The effective magnetic field of the exchange interaction reaches up to 2.5 Tesla and can be turned on and off by application of 1V bias across the heterostructure.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: Nat Commun Journal subject: BIOLOGIA / CIENCIA Year: 2019 Document type: Article Affiliation country: RUSSIA
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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: Nat Commun Journal subject: BIOLOGIA / CIENCIA Year: 2019 Document type: Article Affiliation country: RUSSIA