Hiroshi Tonomura scite author profile

As liquids crystallize into solids on cooling, spins in magnets generally form periodic order. However, three decades ago, it was theoretically proposed that spins on a triangular lattice form a liquidlike disordered state at low temperatures. Whether or not a spin liquid is stabilized by geometrical frustration has remained an active point of inquiry ever since. Our thermodynamic and neutron measurements on NiGa2S4, a rare example of a two-dimensional triangular lattice antiferromagnet, demonstrate that geometrical frustration stabilizes a low-temperature spin-disordered state with coherence beyond the two-spin correlation length. Spin liquid formation may be an origin of such behavior.

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Spin Disorder and Order in Quasi-2D Triangular Heisenberg Antiferromagnets: Comparative Study ofFeGa2S4,Fe2Ga2<

Nakatsuji

Tonomura

Onuma

et al. 2007

Phys. Rev. Lett.

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Our single crystal study reveals that the single-layer S=2 triangular Heisenberg antiferromagnet FeGa2S4 forms a frozen spin-disordered state, similar to the S=1 isostructural magnet NiGa2S4. In this state, the magnetic specific heat C{M} is not only insensitive to the field, but shows a T2 dependence that scales to C{M} of NiGa2S4, suggesting the same underlying mechanism of the 2D coherent behavior. In contrast, the bilayer system Fe2Ga2S5 exhibits a 3D antiferromagnetic order.

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Crystalline electric field levels and magnetic properties of the metallic pyrochlore compound Pr2Ir2O7

Machida

Nakatsuji

Tonomura

et al. 2005

Journal of Physics and Chemistry of Solids

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Wireless charging for electric vehicle with microwaves

Shinohara

Kubo

Tonomura³

2013

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Effects of Exposure to 5.8 GHz Electromagnetic Field on Micronucleus Formation, DNA Strand Breaks, and Heat Shock Protein Expressions in Cells Derived From Human Eye

Miyakoshi

Tonomura

Koyama

et al. 2019

IEEE Trans.on Nanobioscience

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