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Resonant Indirect Exchange Interaction between Localized Spin States in 3D Dirac semimetal
Russian version
Goryunov Yu. V. 1
1Federal Research Center «Kazan Scientific Center of Russian Academy of Sciences», Kazan, Russia
Email: gorjunov@kfti.knc.ru
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The paper considers the question of the exchange interaction of localized spin states of Eu impurities in the Dirac semimetal α-Cd3As2 by means donor electrons originating from these impurities. Being in a state of chemical compression, the divalent europium ion is inclined, by donating an electron to the conduction band, to pass into a trivalent state with a smaller ionic radius. The existence of europium in the non-magnetic trivalent state occurs only a small part of the time. However, it leads to a slight decrease in its effective local magnetic moment and an increase in the g-factor due to interaction with Dirac electrons. The change in the degree of chemical compression with temperature explains the previously observed temperature dependences of the g-factor and EPR linewidth for impurity Eu2+ ions (g~ 2.2 and g~ 4.4). Taken together, this indicates the presence of a crystallographically selective indirect exchange interaction between localized spins of Eu2+ ions mediated by the donor conduction electrons Keywords: magnetic resonance, Dirac semimetals, magnetic impurities, exchange interaction.
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