Giant magneto-elastic coupling in multiferroic hexagonal manganites

Lee, Seongsu; Pirogov, A. N.; Kang, Mi-Sun; Jang, Kwang Hyun; Yonemura, Masao; Kamiyama, Takashi; Cheong, S.-W.; Gozzo, F.; Shin, Namsoo; Kimura, Hiroyuki; Noda, Yukio; Park, J. G.

doi:10.1038/nature06507

Cited by 377 publications

(361 citation statements)

References 25 publications

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“…Since the XRD measurements have been performed at room temperature, the obtained structure is the noncentrosymmetric, which allows the appearance of ferroelectricity. Magnetic measurements show a paramagnetic-antiferromagnetic transition at T N ∼75 K, also in good agreement with the values reported in literature [13,14]. Fig.…”

Section: Resultssupporting

confidence: 80%

“…The refinement of X-ray data show that YMnO 3 samples are single phase and crystallize in the hexagonal structure (space group P 6 3 cm) with corresponding cell parameters a=b=6.1354(1)Å and c=11.3916(3)Å in excellent agreement with the values reported in the literature [13,14]. Since the XRD measurements have been performed at room temperature, the obtained structure is the noncentrosymmetric, which allows the appearance of ferroelectricity.…”

Section: Resultssupporting

confidence: 76%

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Perturbed angular correlations investigations on YMnO3 multiferroic manganite

et al. 2010

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The Perturbed Angular Correlation (PAC) technique was applied to study the yttrium local environment in YMnO 3 multiferroic manganite. The electric field gradients (EFG) at the Y site have been measured as function of temperature, covering both ferroelectric and magnetic transitions. The results were compared with point charge model (PCM) calculations.The experimental results show two different EFG distributions for all temperatures. Only one can be directly attributed to the yttrium crystalline site in the hexagonal structure.

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Section: Resultssupporting

confidence: 80%

Section: Resultssupporting

confidence: 76%

Perturbed angular correlations investigations on YMnO3 multiferroic manganite

et al. 2010

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“…This becomes even more complex in a system such as YMnO 3 where magnetic structures have the propagation vector k = 0, meaning that magnetic reflections occur at the same position as nuclear reflections, causing great difficulty in the refinement of both magnetic and crystal structures [37]. Lee et al [7] observed 'giant' atomic displacements in YMnO 3 from neutron and x-ray diffraction experiments and suggested that these displacements could be responsible for coupling of the magnetic and electric order parameters. However, as remarked by Chatterji et al [37], no explanation was offered as to how correlations between structural and magnetic parameters were avoided and therefore it is difficult to accept this result.…”

Section: Introductionmentioning

confidence: 99%

“…The magnetoelastic coupling effect in YMnO 3 has been the subject of much work in recent years and a series of neutron diffraction experiments has been carried out to monitor changes in lattice parameters and atomic positions at T N [7,10,29,[35][36][37]. Monitoring of changes in atomic positions and bond lengths is difficult due to the small changes involved.…”

Section: Introductionmentioning

confidence: 99%

“…Some of the most successful examples of magnetoelectric multiferroics have come from the hexagonal rare earth manganites, RMnO 3 , and significant research has been undertaken to understand the magnetic and ferroelectric properties of these compounds (see, for example, [1][2][3][4][5][6][7][8]). Of these materials YMnO 3 , with a layered structure with Y ions placed between sheets of corner sharing MnO 5 triangular bipyramids, has been of particular interest [9][10][11][12][13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

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Elastic anomalies associated with structural and magnetic phase transitions in single crystal hexagonal YMnO₃

Thomson

Chatterji

Howard

et al. 2014

J. Phys.: Condens. Matter

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Resonant ultrasound spectroscopy has been used to measure the elastic and anelastic behaviour through known structural and magnetic phase transitions in single crystal hexagonal YMnO 3 . Anomalous elastic behaviour is observed at the high temperature structural transition at ∼1260 K, with a discontinuity in the elastic constants and nonlinear recovery below T c , consistent with λeQ 2 s coupling. There is no change in dissipation associated with this high temperature transition, and no evidence in the elastic or anelastic behaviour for any secondary transition at ∼920 K, thus supporting the thesis of a single high temperature transformation. Elastic stiffening is observed on cooling through T N , in accordance with previous studies, and the excess elastic constant appears to scale with the square of the magnetic order parameter. The strains incurred at T N are a factor of ∼20 smaller than those at the structural transition, implying very weak λeQ 2 m coupling and a dominant contribution to the variation in the elastic constants from λe 2 Q 2 m . The increased acoustic dissipation above T N is consistent with an order-disorder process.

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