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論文

Multiple metamagnetic transitions in the helical antiferromagnet CeVGe $_{3}$

Jin, H.*; Choi, E. S.*; Wu, H.-C.*; Curro, N. J.*; 那波和宏*; 佐藤卓*; 鬼柳亮嗣; 大原高志; Klavins, P.*; Taufour, V.*

Physical Review B, 111(3), p.035103_1 - 035103_7, 2025/01

https://doi.org/10.1103/PhysRevB.111.035103

被引用回数：0 パーセンタイル：0.00(Materials Science, Multidisciplinary)

We report on neutron diffraction, magnetoresistance, magnetization and magnetic torque measurements under high magnetic field in the helical antiferromagnet CeVGe $_{3}$ . This compound exhibits Kondo lattice coherence and helical antiferromagnetic (AFM) ordering at ambient pressure, similar to the well-studied CeRhIn $_{5}$ . Our measurements reveal that CeVGe $_{3}$ undergoes a magnetic transition from an incommensurate (ICM) AFM state to an up-up-down-down commensurate (CM) AFM structure, followed by a transition to a novel phase at higher fields. A quantum phase transition occurs around 21.3 T. This rich magnetic field phase diagram closely resembles that of CeRhIn $_{5}$ . Furthermore, angle-dependent magnetoresistance measurements reveal that all transitions in CeVGe $_{3}$ occur from the field component along the ab plane. These findings highlight the intricate interplay among exchange interactions, crystal field effects, ground state properties, and crystalline symmetries.

論文

Strong low-energy rattling modes enabled liquid-like ultralow thermal conductivity in a well-ordered solid

Liu, P.-F.*; Li, X.*; Li, J.*; Zhu, J.*; Tong, Z.*; 古府麻衣子*; 楡井真実; Xu, J.*; Yin, W.*; Wang, F.*; et al.

National Science Review, 11(12), p.nwae216_1 - nwae216_10, 2024/12

https://doi.org/10.1093/nsr/nwae216

被引用回数：16 パーセンタイル：91.30(Multidisciplinary Sciences)

Crystalline solids exhibiting inherently low lattice thermal conductivity ( $kappa_{rm L}$ ) are of great importance in applications such as thermoelectrics and thermal barrier coatings. However, $kappa_{rm L}$ cannot be arbitrarily low and is limited by the minimum thermal conductivity related to phonon dispersions. In this work, we report the liquid-like thermal transport in a well-ordered crystalline CsAgTe, which exhibits an extremely low $kappa_{rm L}$ value of 0.18 Wm $^{-1}$ K $^{-1}$ . On the basis of first-principles calculations and inelastic neutron scattering measurements, we find that there are lots of low-lying optical phonon modes at 3.1 meV hosting the avoided-crossing behavior with acoustic phonons. These strongly localized modes are accompanied by weakly bound rattling Ag atoms with thermally induced large amplitudes of vibrations. Using the two-channel model, we demonstrate that coupling of the particle-like phonon modes and the heat-carrying wave-like phonons is essential for understanding the low $kappa_{rm L}$ , which is heavily deviated from the temperature dependence of the standard Peierls theory. In addition, our analysis indicates that the soft structural framework with liquid-like motions of the fluctuating Ag atoms is the underlying cause that leads to the suppression of the heat conduction in CsAgTe. These factors synergistically account for the ultralow $kappa_{rm L}$ value. Our results demonstrate that the liquid-like heat transfer could indeed exist in a well-ordered crystal.