Pressure-tuned quantum criticality in the large-D antiferromagnet DTN

Povarov, Kirill Yu.; Graf, David E.; Hauspurg, Andreas; Zherlitsyn, Sergei; Wosnitza, Joachim; Sakurai, Takahiro; Ohta, Hitoshi; Kimura, Shojiro; Nojiri, Hiroyuki; Garlea, V. Ovidiu; Zheludev, Andrey; Paduan-Filho, Armando; Nicklas, Michael; Zvyagin, Sergei A.

doi:10.1038/s41467-024-46527-x

Nat Commun

2024

DOI: 10.1038/s41467-024-46527-x

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Pressure-tuned quantum criticality in the large-D antiferromagnet DTN

Kirill Yu. Povarov,

David E. Graf,

Andreas Hauspurg

et al.

Abstract: Strongly correlated spin systems can be driven to quantum critical points via various routes. In particular, gapped quantum antiferromagnets can undergo phase transitions into a magnetically ordered state with applied pressure or magnetic field, acting as tuning parameters. These transitions are characterized by z = 1 or z = 2 dynamical critical exponents, determined by the linear and quadratic low-energy dispersion of spin excitations, respectively. Employing high-frequency susceptibility and ultrasound techn… Show more

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Cited by 2 publications

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What is Multi-extreme THz ESR? Developments and its Applications

Ohta,

Okubo,

Ohmichi

et al. 2024

Appl Magn Reson

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This review explores the multi-extreme THz ESR system in Kobe, Japan, with a focus on pulsed magnetic fields, mechanical detection, and high pressure as central elements of multi-extreme THz ESR. Initially, it discusses the advantages of multi-frequency THz ESR using mini-pulsed and 55 T‒pulsed magnetic fields, with typical examples featuring the finite Haldane chain substance Y2BaNi0.96Mg0.04O5 and the deformed diamond chain antiferromagnet Cu3(CO3)2(OH)2 (Azurite). The measurement efficiency and the measurement beyond the magnetic phase transition, in contrast to the conventional superconducting magnet, are discussed. Second, the high sensitivity obtained from the use of a nano-membrane for mechanical detection is shown. Also shown are the high-temperature (280 K) THz ESR results for DPPH powder and a Cu(C4H4N2)(NO3)2 (CuPzN) single crystal, with the combination of a nano-membrane device and a high-power source, a gyrotron. Finally, the high-pressure THz ESR results for KCuCl3 using a transmission-type double-layered pressure cell are shown, along with the application of the thermally detected high-pressure THz ESR.

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What is Multi-extreme THz ESR? Developments and its Applications

Ohta,

Okubo,

Ohmichi

et al. 2024

Appl Magn Reson

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Pseudo-easy-axis anisotropy in antiferromagnetic S=1 diamond-lattice systems

Vaidya,

Hernández-Melián,

Tidey

et al. 2024

Phys. Rev. B

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We investigate the magnetic properties of S=1 antiferromagnetic diamond-lattice, NiX2(pyrimidine)2 (X=Cl, Br), hosting a single-ion anisotropy (SIA) orientation which alternates between neighboring sites. Through neutron diffraction measurements of the X=Cl compound, the ordered state spins are found to align collinearly along a pseduo-easy axis, a unique direction created by the intersection of two easy planes. Similarities in the magnetization, exhibiting spin-flop transitions, and the magnetic susceptibility in the two compounds imply that the same magnetic structure and a pseduo-easy axis is also present for X=Br. We estimate the Hamiltonian parameters by combining analytical calculations and Monte Carlo (MC) simulations of the spin-flop and saturation field. The MC simulations also reveal that the spin-flop transition occurs when the applied field is parallel to the pseduo-easy axis. Contrary to conventional easy-axis systems, there exist field directions perpendicular to the pseduo-easy axis for which the magnetic saturation is approached asymptotically and no symmetry-breaking phase transition is observed at finite fields. Published by the American Physical Society 2024

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Pressure-tuned quantum criticality in the large-D antiferromagnet DTN

Cited by 2 publications

References 67 publications

What is Multi-extreme THz ESR? Developments and its Applications

What is Multi-extreme THz ESR? Developments and its Applications

Pseudo-easy-axis anisotropy in antiferromagnetic S=1 diamond-lattice systems

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