Magnetic field switching between the two orbital-ordered states in DyVO3

The critical phase competition between different spin-orbital-ordered states has been investigated for the DyVO3 single crystal. As temperature is lowered, the compound exhibits a reentrant spin and orbital ordering (SO and OO) transition: C-->G-->C type for SO and G-->C-->G type for OO....

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Published in:Physical review letters 2007-11, Vol.99 (21), p.217201-217201
Main Authors: Miyasaka, S, Yasue, T, Fujioka, J, Yamasaki, Y, Okimoto, Y, Kumai, R, Arima, T, Tokura, Y
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container_issue 21
container_start_page 217201
container_title Physical review letters
container_volume 99
creator Miyasaka, S
Yasue, T
Fujioka, J
Yamasaki, Y
Okimoto, Y
Kumai, R
Arima, T
Tokura, Y
description The critical phase competition between different spin-orbital-ordered states has been investigated for the DyVO3 single crystal. As temperature is lowered, the compound exhibits a reentrant spin and orbital ordering (SO and OO) transition: C-->G-->C type for SO and G-->C-->G type for OO. It was found that a magnetic field also drives the phase transition from C to G for OO and concomitantly from G to C for SO, the latter of which is coupled with the metamagnetic transition of the Dy 4f moments. The mechanism of this novel magnetic-field-induced orbital switching is discussed.
doi_str_mv 10.1103/PhysRevLett.99.217201
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title Magnetic field switching between the two orbital-ordered states in DyVO3
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