Control of Fermi Level by Variation of Charge Ordering State in Yb_1-<i>x</i>Ti<i>_x</i>Fe₂O₄

Abstract: Fermi level and valence state were investigated in RFe2O4 (R = Y, Dy, Ho, Er, Tm, Yb, Lu, Sc, or In), which shows magnetoelectric effect originating from charge and magnetic orders of Fe 2+ and Fe 3+ . We succeeded in controlling the Fermi level of YbFe2O4 system by Ti 4+ substitution for Yb 3+ . The variation in the ratio of Fe 2+ to Fe 3+ is suggested to the origin of the Fermi level variation. This report suggests the possibility of simple selection of conduction type in functional oxide.

“…The larger dielectric constant of the film may arise from high conductivity or off-stoichiometry which changes fermi level. 31 Accompanied by the change in the magnitude of the interface effect between the sample and gold electrodes. The dielectric tunability is also reported.…”

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“…The larger dielectric constant of the film may arise from high conductivity or off-stoichiometry which changes fermi level. 31 Accompanied by the change in the magnitude of the interface effect between the sample and gold electrodes. The dielectric tunability is also reported.…”

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Review of thin films of RFe2O4 (R=Lu, Yb, Tm or In)