Successive spin-flop transitions of a Néel-type antiferromagnet Li2MnO3 single crystal with a honeycomb lattice

K. Balamurugan; Sang Hyun Lee; Jun Sung Kim; Jong Mok Ok; Youn Jung Jo; Young Mi Song; Shin Ae Kim; E. S. Choi; Manh Duc Le; Je Geun Park

doi:10.1103/PhysRevB.90.104412

Successive spin-flop transitions of a Néel-type antiferromagnet Li2MnO3 single crystal with a honeycomb lattice

K. Balamurugan, Sang Hyun Lee, Jun Sung Kim, Jong Mok Ok, Youn Jung Jo, Young Mi Song, Shin Ae Kim, E. S. Choi, Manh Duc Le, Je Geun Park

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15 Scopus citations

Abstract

We have carried out high magnetic field studies of single-crystalline Li2MnO3, a honeycomb lattice antiferromagnet. Its magnetic phase diagram was mapped out using magnetization measurements at applied fields up to 35 T. Our results show that it undergoes two successive meta-magnetic transitions around 9 T fields applied perpendicular to the ab plane (along the c∗ axis). These phase transitions are completely absent in the magnetization measured with the field applied along the ab plane. In order to understand this magnetic phase diagram, we developed a mean-field model starting from the correct Néel-type magnetic structure, consistent with our single crystal neutron diffraction data at zero field. Our model calculations succeeded in explaining the two meta-magnetic transitions that arise when Li2MnO3 enters two different spin-flop phases from the zero field Néel phase.

Original language	English
Article number	104412
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	90
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevB.90.104412
State	Published - 15 Sep 2014

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Balamurugan, K., Lee, S. H., Kim, J. S., Ok, J. M., Jo, Y. J., Song, Y. M., Kim, S. A., Choi, E. S., Le, M. D., & Park, J. G. (2014). Successive spin-flop transitions of a Néel-type antiferromagnet Li2MnO3 single crystal with a honeycomb lattice. Physical Review B - Condensed Matter and Materials Physics, 90(10), Article 104412. https://doi.org/10.1103/PhysRevB.90.104412

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title = "Successive spin-flop transitions of a N{\'e}el-type antiferromagnet Li2MnO3 single crystal with a honeycomb lattice",

abstract = "We have carried out high magnetic field studies of single-crystalline Li2MnO3, a honeycomb lattice antiferromagnet. Its magnetic phase diagram was mapped out using magnetization measurements at applied fields up to 35 T. Our results show that it undergoes two successive meta-magnetic transitions around 9 T fields applied perpendicular to the ab plane (along the c∗ axis). These phase transitions are completely absent in the magnetization measured with the field applied along the ab plane. In order to understand this magnetic phase diagram, we developed a mean-field model starting from the correct N{\'e}el-type magnetic structure, consistent with our single crystal neutron diffraction data at zero field. Our model calculations succeeded in explaining the two meta-magnetic transitions that arise when Li2MnO3 enters two different spin-flop phases from the zero field N{\'e}el phase.",

author = "K. Balamurugan and Lee, \{Sang Hyun\} and Kim, \{Jun Sung\} and Ok, \{Jong Mok\} and Jo, \{Youn Jung\} and Song, \{Young Mi\} and Kim, \{Shin Ae\} and Choi, \{E. S.\} and Le, \{Manh Duc\} and Park, \{Je Geun\}",

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doi = "10.1103/PhysRevB.90.104412",

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AU - Balamurugan, K.

AU - Lee, Sang Hyun

AU - Kim, Jun Sung

AU - Ok, Jong Mok

AU - Jo, Youn Jung

AU - Song, Young Mi

AU - Kim, Shin Ae

AU - Choi, E. S.

AU - Le, Manh Duc

AU - Park, Je Geun

PY - 2014/9/15

Y1 - 2014/9/15

N2 - We have carried out high magnetic field studies of single-crystalline Li2MnO3, a honeycomb lattice antiferromagnet. Its magnetic phase diagram was mapped out using magnetization measurements at applied fields up to 35 T. Our results show that it undergoes two successive meta-magnetic transitions around 9 T fields applied perpendicular to the ab plane (along the c∗ axis). These phase transitions are completely absent in the magnetization measured with the field applied along the ab plane. In order to understand this magnetic phase diagram, we developed a mean-field model starting from the correct Néel-type magnetic structure, consistent with our single crystal neutron diffraction data at zero field. Our model calculations succeeded in explaining the two meta-magnetic transitions that arise when Li2MnO3 enters two different spin-flop phases from the zero field Néel phase.

AB - We have carried out high magnetic field studies of single-crystalline Li2MnO3, a honeycomb lattice antiferromagnet. Its magnetic phase diagram was mapped out using magnetization measurements at applied fields up to 35 T. Our results show that it undergoes two successive meta-magnetic transitions around 9 T fields applied perpendicular to the ab plane (along the c∗ axis). These phase transitions are completely absent in the magnetization measured with the field applied along the ab plane. In order to understand this magnetic phase diagram, we developed a mean-field model starting from the correct Néel-type magnetic structure, consistent with our single crystal neutron diffraction data at zero field. Our model calculations succeeded in explaining the two meta-magnetic transitions that arise when Li2MnO3 enters two different spin-flop phases from the zero field Néel phase.

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U2 - 10.1103/PhysRevB.90.104412

DO - 10.1103/PhysRevB.90.104412

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JO - Physical Review B - Condensed Matter and Materials Physics

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M1 - 104412

ER -

Successive spin-flop transitions of a Néel-type antiferromagnet Li2MnO3 single crystal with a honeycomb lattice

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