2011
DOI: 10.1103/physrevlett.106.237202
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Neutron Laue Diffraction Study on the Magnetic Phase Diagram of MultiferroicMnWO4under Pulsed High Magnetic Fields

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Cited by 54 publications
(41 citation statements)
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“…The instrument was operated in Laue mode with an epithermal neutron wavelength band λ = 0.1-0.8Å. The pulsed magnetic field was generated by a solenoid coil, mounted in an insert for a standard 4 He-flow cryostat, and connected to a capacitor bank delivering 4-5 ms pulses and a maximum field of 30 T. This setup 32,33 allows the sample temperature to be controlled by the cryostat, while the solenoid is immersed in liquid nitrogen. A high-quality single crystal (m ≈ 400 mg 29 ) was mounted inside the 12 mm magnet bore with its crystallographic a-axis vertical and the c-axis at an angle θ = 2.8…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…The instrument was operated in Laue mode with an epithermal neutron wavelength band λ = 0.1-0.8Å. The pulsed magnetic field was generated by a solenoid coil, mounted in an insert for a standard 4 He-flow cryostat, and connected to a capacitor bank delivering 4-5 ms pulses and a maximum field of 30 T. This setup 32,33 allows the sample temperature to be controlled by the cryostat, while the solenoid is immersed in liquid nitrogen. A high-quality single crystal (m ≈ 400 mg 29 ) was mounted inside the 12 mm magnet bore with its crystallographic a-axis vertical and the c-axis at an angle θ = 2.8…”
Section: Methodsmentioning
confidence: 99%
“…At 16 T the IC modulation of the spiral locks in to a quintupling of the crystallographic unit cell along b. Pulsed field magnetization measurements at 4.2 K indicate the existence of additional magnetic phase transitions for fields in the range 14 − 22 T. 31 . The ME properties and magnetic structures of the higher-field phases are unknown, but recent advances in pulsed-field diffraction [32][33][34][35] imply that the latter can now be investigated using neutron scattering.…”
Section: 21mentioning
confidence: 99%
“…MnWO 4 , with a frustrated magnetic structure below the Néel temperature of 13.7 K, presents up to three different antiferromagnetic (AF) structures with an incommensurate multiferroic phase (AF2) between 12.7 and 7.6 K [4][5][6][7][8][9][10][11]. Unfortunately, the applicability of the multiferroic properties of MnWO 4 is constrained to the low temperatures at which the magnetic order takes place.…”
Section: Introductionmentioning
confidence: 99%
“…A ferroelectric polarization and thus magnetoelectric multiferroicity is observed in the AF2 phase [7][8][9] as well as in a further phase occurring in high magnetic fields. 11 The spontaneous polarization is parallel to the b axis. 8,9 Ferroelectricity originates from the spiral spin structure via the inverse Dzyaloshinskii-Moriya effect.…”
Section: Introductionmentioning
confidence: 99%