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1. Zeeman polaritons as a platform for probing Dicke physics in condensed matter

Author

Kritzell, T. Elijah, Doumani, Jacques, Asano, Tobias, Yamada, Sota, Tay, Fuyang, Xu, Hongjing, Yan, Han, Katayama, Ikufumi, Takeda, Jun, Nevidomskyy, Andriy, Nojiri, Hiroyuki, Bamba, Motoaki, Baydin, Andrey, and Kono, Junichiro

Subjects
Quantum Physics, Condensed Matter - Other Condensed Matter
Abstract

The interaction of an ensemble of two-level atoms and a quantized electromagnetic field, described by the Dicke Hamiltonian, is an extensively studied problem in quantum optics. However, experimental efforts to explore similar physics in condensed matter typically employ bosonic matter modes (e.g., phonons, magnons, and plasmons) that are describable as simple harmonic oscillators, i.e., an infinite ladder of equally spaced energy levels. Here, we examine ultrastrong coupling between a coherent light mode and an ensemble of paramagnetic spins, a finite-multilevel system, in Gd$_3$Ga$_5$O$_{12}$. The electron paramagnetic resonance of Gd$^{3+}$ ions is tuned by a magnetic field into resonance with a Fabry--P\'erot cavity mode, resulting in the formation of spin--photon hybrid states, or Zeeman polaritons. We observe that the light--matter coupling strength, measured through the vacuum Rabi splitting, decreases with increasing temperature, which can be explained by the temperature-dependent population difference between the lower and higher-energy states, a trait of a finite-level system. This finding demonstrates that a spin--boson system is more compatible with the Dicke model and has advantages over boson--boson systems for pursuing experimental realizations of phenomena predicted for ultrastrongly coupled light--matter hybrids.

Published
2024

2. Higher-magnesium-doping effects on the singlet ground state of the Shastry-Sutherland SrCu2(BO3)2

Author

Šibav, Lia, Gosar, Žiga, Knaflič, Tilen, Jagličić, Zvonko, King, Graham, Nojiri, Hiroyuki, Arčon, Denis, and Dragomir, Mirela

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science
Abstract

Doping of quantum antiferromagnets is an established approach to investigate the robustness of their ground state against the competing phases. Predictions of doping effects on the ground state of the Shastry-Sutherland dimer model are here verified experimentally on Mg-doped SrCu2(BO3)2. A partial incorporation of Mg2+ on the Cu2+-site in the SrCu2(BO3)2 structure leads to a subtle but systematic lattice expansion with the increasing Mg-doping concentration, which is accompanied by a concomitant decrease in the spin gap, the Curie-Weiss temperature and the peak temperature of the susceptibility. These findings indicate a doping-induced breaking of Cu2+ spin-1/2 dimers which is also corroborated by X-band EPR spectroscopy that points to a systematic increase in intensity of free Cu2+ sites with increasing Mg-doping concentration. Extending the Mg-doping up to nominal x = 0.10 or SrCu1.9Mg0.1(BO3)2, in the magnetisation measurements taken up to 35 T, a suppression of the pseudo-1/8 plateau is found along with a clear presence of an anomaly at an onset critical field H'C0 ~ 9 T. The latter, absent in pure SrCu2(BO3)2, emerges due to the coupling of liberated Cu2+ spin-1/2 entities in the vicinity of Mg-doping induced impurities., Comment: 17 pages, 6 figures

Published
2024

3. Observation of the Magnonic Dicke Superradiant Phase Transition

Author

Kim, Dasom, Dasgupta, Sohail, Ma, Xiaoxuan, Park, Joong-Mok, Wei, Hao-Tian, Luo, Liang, Doumani, Jacques, Li, Xinwei, Yang, Wanting, Cheng, Di, Kim, Richard H. J., Everitt, Henry O., Kimura, Shojiro, Nojiri, Hiroyuki, Wang, Jigang, Cao, Shixun, Bamba, Motoaki, Hazzard, Kaden R. A., and Kono, Junichiro

Subjects
Quantum Physics, Condensed Matter - Materials Science, Physics - Optics
Abstract

Two-level atoms coupled with single-mode cavity photons are predicted to exhibit a quantum phase transition when the coupling strength exceeds a critical value, entering a phase in which atomic polarization and photonic field are finite even at zero temperature and without external driving. However, this phenomenon, the superradiant phase transition (SRPT), is forbidden by a no-go theorem due to the existence of the diamagnetic term in the Hamiltonian. Here, we present spectroscopic evidence for a magnonic SRPT in ErFeO$_3$, where the role of the photonic mode (two-level atoms) in the photonic SRPT is played by an Fe$^{3+}$ magnon mode (Er$^{3+}$ spins). The absence of the diamagnetic term in the Fe$^{3+}$-Er$^{3+}$ exchange coupling ensures that the no-go theorem does not apply. Terahertz and gigahertz magnetospectroscopy experiments revealed the signatures of the SRPT -- a kink and a softening, respectively, of two spin-magnon hybridized modes at the critical point.

Published
2024

4. A correlated ferromagnetic polar metal by design

Author

Zhang, Jianbing, Shen, Shengchun, Puggioni, Danilo, Wang, Meng, Sha, Haozhi, Xu, Xueli, Lyu, Yingjie, Peng, Huining, Xing, Wandong, Walters, Lauren N., Liu, Linhan, Wang, Yujia, Hou, De, Xi, Chuanying, Pi, Li, Ishizuka, Hiroaki, Kotani, Yoshinori, Kimata, Motoi, Nojiri, Hiroyuki, Nakamura, Tetsuya, Liang, Tian, Yi, Di, Nan, Tianxiang, Zang, Jiadong, Sheng, Zhigao, He, Qing, Zhou, Shuyun, Nagaosa, Naoto, Nan, Ce-Wen, Tokura, Yoshinori, Yu, Rong, Rondinelli, James M., and Yu, Pu

Published
2024
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5. One-ninth magnetization plateau stabilized by spin entanglement in a kagome antiferromagnet

Author

Jeon, Sungmin, Wulferding, Dirk, Choi, Youngsu, Lee, Seungyeol, Nam, Kiwan, Kim, Kee Hoon, Lee, Minseong, Jang, Tae-Hwan, Park, Jae-Hoon, Lee, Suheon, Choi, Sungkyun, Lee, Chanhyeon, Nojiri, Hiroyuki, and Choi, Kwang-Yong

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The spin-1/2 antiferromagnetic Heisenberg model on a Kagome lattice is geometrically frustrated, which is expected to promote the formation of many-body quantum entangled states. The most sought-after among these is the quantum spin liquid phase, but magnetic analogs of liquid, solid, and supersolid phases may also occur, producing fractional plateaus in the magnetization. Here, we investigate the experimental realization of these predicted phases in the Kagome material YCu3(OD)6+xBr3-x (x=0.5). By combining thermodynamic and Raman spectroscopic techniques, we provide evidence for fractionalized spinon excitations and observe the emergence of a 1/9 magnetization plateau. These observations establish YCu3(OD)6+xBr3-x as a model material for exploring the 1/9 plateau phase., Comment: to appear in Nature Physics, 33 pagses, 15 figures

Published
2023

6. Terahertz cavity magnon polaritons

Author

Kritzell, T. Elijah, Baydin, Andrey, Tay, Fuyang, Rodriguez, Rodolfo, Nojiri, Hiroyuki, Everitt, Henry O., Barsukov, Igor, and Kono, Junichiro

Subjects
Physics - Optics
Abstract

Hybrid light-matter coupled states, or polaritons, in magnetic materials have attracted significant attention due to their potential for enabling novel applications in spintronics and quantum information processing. However, most studies to date have been carried out for ferromagnetic materials with magnon excitations at gigahertz frequencies. Here, we have investigated strong resonant photon-magnon coupling at frequencies above 1 terahertz for the first time in a prototypical room-temperature antiferromagnetic insulator, NiO, inside a Fabry-P\'erot cavity. The cavity was formed by the crystal itself when it was thinned down to an optimized thickness. By using terahertz time-domain spectroscopy in high magnetic fields up to 25 T, we swept the magnon frequency through Fabry-P\'erot cavity modes and observed photon-magnon anticrossing behavior, demonstrating clear vacuum Rabi splittings exceeding the polariton linewidths. These results show that NiO is a promising platform for exploring antiferromagnetic spintronics and cavity magnonics in the terahertz frequency range.

Published
2023

7. Pressure-tuned quantum criticality in the large-$D$ antiferromagnet DTN

Author

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, and Zvyagin, Sergei A.

Subjects
Condensed Matter - Strongly Correlated Electrons
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 techniques, we demonstrate that the tetragonal easy-plane quantum antiferromagnet NiCl$_{2}\cdot$4SC(NH$_2$)$_2$ (aka DTN) undergoes a spin-gap closure transition at about $4.2$ kbar, resulting in a pressure-induced magnetic ordering. The studies are complemented by high-pressure-electron spin-resonance measurements confirming the proposed scenario. Powder neutron diffraction measurements revealed that no lattice distortion occurs at this pressure and the high spin symmetry is preserved, establishing DTN as a perfect platform to investigate $z=1$ quantum critical phenomena. The experimental observations are supported by DMRG calculations, allowing us to quantitatively describe the pressure-driven evolution of critical fields and spin-Hamiltonian parameters in DTN., Comment: Main text: 9 pages, 7 figures. Supplemental Material: 8 pages, 6 figures

Published
2023
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8. Field-induced bound-state condensation and spin-nematic phase in SrCu$_2$(BO$_3$)$_2$ revealed by neutron scattering up to 25.9 T

Author

Fogh, Ellen, Nayak, Mithilesh, Prokhnenko, Oleksandr, Bartkowiak, Maciej, Munakata, Koji, Soh, Jian-Rui, Turrini, Alexandra A., Zayed, Mohamed E., Pomjakushina, Ekaterina, Kageyama, Hiroshi, Nojiri, Hiroyuki, Kakurai, Kazuhisa, Normand, Bruce, Mila, Frédéric, and Rønnow, Henrik M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Bose-Einstein condensation (BEC) underpins exotic forms of order ranging from superconductivity to superfluid 4 He. In quantum magnetic materials, ordered phases induced by an applied magnetic field can be described as the BEC of magnon excitations. With sufficiently strong magnetic frustration, exemplified by the system SrCu$_2$(BO$_3$)$_2$ , no clear magnon BEC is observed and the complex spectrum of multi-magnon bound states may allow a different type of condensation, but the high fields required to probe this physics have remained a barrier to detailed investigation. Here we exploit the first purpose-built high-field neutron scattering facility to measure the spin excitations of SrCu$_2$(BO$_3$)$_2$ up to 25.9 T and use cylinder matrix-product-states (MPS) calculations to reproduce the experimental spectra with high accuracy. Multiple unconventional features point to a condensation of $S = 2$ bound states into a spin-nematic phase, including the gradients of the one-magnon branches, the presence of many novel composite two- and three-triplon excitations and the persistence of a one-magnon spin gap. This gap reflects a direct analogy with superconductivity, suggesting that the spin-nematic phase in SrCu$_2$(BO$_3$)$_2$ is best understood as a condensate of bosonic Cooper pairs. Our results underline the wealth of unconventional states yet to be found in frustrated quantum magnetic materials under extreme conditions.

Published
2023
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12. Angle-resolved photoemission spectroscopy with an $\textit{in situ}$ tunable magnetic field

Author

Huang, Jianwei, Yue, Ziqin, Baydin, Andrey, Zhu, Hanyu, Nojiri, Hiroyuki, Kono, Junichiro, He, Yu, and Yi, Ming

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Condensed Matter - Superconductivity
Abstract

Angle-resolved photoemission spectroscopy (ARPES) is a powerful tool for probing the momentum-resolved single-particle spectral function of materials. Historically, $\textit{in situ}$ magnetic fields have been carefully avoided as they are detrimental to the control of photoelectron trajectory during the photoelectron detection process. However, magnetic field is an important experimental knob for both probing and tuning symmetry-breaking phases and electronic topology in quantum materials. In this paper, we introduce an easily implementable method for realizing an $\textit{in situ}$ tunable magnetic field at the sample position in an ARPES experiment and analyze magnetic field induced artifacts in ARPES data. Specifically, we identified and quantified three distinct extrinsic effects of a magnetic field: Fermi surface rotation, momentum shrinking, and momentum broadening. We examined these effects in three prototypical quantum materials, i.e., a topological insulator (Bi$_2$Se$_3$), an iron-based superconductor (LiFeAs), and a cuprate superconductor (Bi$_2$Sr$_2$CaCu$_2$O$_{8+x}$), and demonstrate the feasibility of ARPES measurements in the presence of a controllable magnetic field. Our studies lay the foundation for the future development of the technique and interpretation of ARPES measurements of field-tunable quantum phases., Comment: 26 pages, 7 figures

Published
2023
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13. Chiral Phonons with Giant Magnetic Moments in a Topological Crystalline Insulator

Author

Hernandez, Felix G. G., Baydin, Andrey, Chaudhary, Swati, Tay, Fuyang, Katayama, Ikufumi, Takeda, Jun, Nojiri, Hiroyuki, Okazaki, Anderson K., Rappl, Paulo H. O., Abramof, Eduardo, Rodriguez-Vega, Martin, Fiete, Gregory A., and Kono, Junichiro

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Optics
Abstract

We have studied the magnetic response of transverse optical phonons in Pb$_{1-x}$Sn$_{x}$Te films. Polarization-dependent terahertz magnetospectroscopy measurements revealed Zeeman splittings and diamagnetic shifts, demonstrating that these phonon modes become chiral in magnetic fields. Films in the topological crystalline insulator phase ($x > 0.32$) exhibited magnetic moment values that are larger than those for topologically trivial films ($x < 0.32$) by two orders of magnitude. Furthermore, the sign of the effective $g$-factor was opposite in the two phases, which can be explained by our theoretical model. These results strongly indicate the existence of interplay between the magnetic properties of chiral phonons and the topology of electronic band structure., Comment: 6 pages, 3 figures, see Supplemental Material in the Ancillary directory

Published
2022
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14. Magnetically Tuned Continuous Transition from Weak to Strong Coupling in Terahertz Magnon Polaritons

Author

Baydin, Andrey, Hayashida, Kenji, Makihara, Takuma, Tay, Fuyang, Ma, Xiaoxuan, Ren, Wei, Ma, Guohong, Noe II, G. Timothy, Katayama, Ikufumi, Takeda, Jun, Nojiri, Hiroyuki, Cao, Shixun, Bamba, Motoaki, and Kono, Junichiro

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics
Abstract

Depending on the relative rates of coupling and dissipation, a light-matter coupled system is either in the weak- or strong-coupling regime. Here, we present a unique system where the coupling rate continuously increases with an externally applied magnetic field while the dissipation rate remains constant, allowing us to monitor a weak-to-strong coupling transition as a function of magnetic field. We observed a Rabi splitting of a terahertz magnon mode in yttrium orthoferrite above a threshold magnetic field of ~14 T. Based on a microscopic theoretical model, we show that with increasing magnetic field the magnons transition into magnon polaritons through an exceptional point, which will open up new opportunities for in situ control of non-Hermitian systems.

Published
2022

15. Magnetic Control of Soft Chiral Phonons in PbTe

Author

Baydin, Andrey, Hernandez, Felix G. G., Rodriguez-Vega, Martin, Okazaki, Anderson K., Tay, Fuyang, Noe II, G. Timothy, Katayama, Ikufumi, Takeda, Jun, Nojiri, Hiroyuki, Rappl, Paulo H. O., Abramof, Eduardo, Fiete, Gregory A., and Kono, Junichiro

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

PbTe crystals have a soft transverse optical phonon mode in the terahertz frequency range, which is known to efficiently decay into heat-carrying acoustic phonons, resulting in anomalously low thermal conductivity. Here, we studied this phonon via polarization-dependent terahertz spectroscopy. We observed softening of this mode with decreasing temperature, indicative of incipient ferroelectricity, which we explain through a model including strong anharmonicity with a quartic displacement term. In magnetic fields up to 25T, the phonon mode split into two modes with opposite handedness, exhibiting circular dichroism. Their frequencies displayed Zeeman splitting together with an overall diamagnetic shift with increasing magnetic field. Using a group-theoretical approach, we demonstrate that these observations are results of magnetic field-induced morphic changes in the crystal symmetries through the Lorentz force exerted on the lattice ions. This study thus reveals a novel process of controlling phonon properties in a soft ionic lattice by a strong magnetic field.

Published
2021
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16. Soft X-ray absorption spectroscopy and magnetic circular dichroism under pulsed high magnetic field of Ni-Co-Mn-In metamagnetic shape memory alloy

Author

Umetsu, Rie Y., Yasumura, Hiromasa, Narumi, Yasuo, Kotani, Yoshinori, Nakamura, Tetsuya, Nojiri, Hiroyuki, and Kainuma, Ryosuke

Subjects
Condensed Matter - Materials Science
Abstract

In this study, X-ray absorption spectroscopy (XAS) experiments for Ni45Co5Mn36.7In13.3 metamagnetic shape memory alloy were performed under high magnetic fields up to 12 T using a pulsed magnet. Field-induced reverse transformation to austenite phase caused considerable changes in the magnetic circular dichroism (MCD) signals and the magnetic moments of the ferromagnetic coupling between Mn, Ni, and Co were determined. The spin magnetic moment, Mspin, and orbital magnetic moment, Morb, of Mn atom in the induced austenite ferromagnetic phase, estimated based on the magneto-optical sum rule, were 3.2 and 0.13 {\mu}B, respectively, resulting in an Morb / Mspin ratio of 0.04. In the element-specific magnetization curves recorded at 150 K, metamagnetic behavior associated with the field-induced reverse transformation is clearly observed and reverse transformation finishing magnetic field and martensitic transformation starting magnetic field are detected. There was almost no difference in the magnetically averaged XAS spectrum for Mn-L2,3 edges between in the martensite and in the magnetic field-induced austenite phases, however, it was visible for Ni, indicating that Ni 3d-electrons mainly contribute to martensitic transformation., Comment: 20 pages, 8 figures, 1 table

Published
2021

17. Combination of Optical Transitions of Polarons with Rashba Effect in Methylammonium Lead Tri-halide Perovskites under High Magnetic Fields

Author

Choi, Halim, Shin, Yong Ho, Park, Chang Soo, Kim, Yongmin, Park, Daeyoung, Jeong, Moon Seok, Nojiri, Hiroyuki, Yang, Zhuo, and Kohama, Yoshimitsu

Subjects
Condensed Matter - Materials Science
Abstract

We investigate photoluminescence (PL) transitions of MAPbX$_{3}$ (X = I, Br and Cl) organic-inorganic hybrid perovskite single crystals under magnetic fields of up to 60 T. In these materials, sharp free-exciton transition peaks emerge at a low temperature (4.2 K). Under strong magnetic fields, the free-exciton PL transitions of three different halogens show dramatic differences. The free-exciton transitions of the MAPbCl$_{3}$ crystal undergo negative energy shifts, while those of the MAPbBr$_{3}$ crystal show normal diamagnetic shifts. To obtain the variation from Cl to Br, we attempt to measure PL transitions of MAPbCl$_{x}$Br$_{3-x}$. For MAPbI$_{3}$, the transition-energy shifts for both $\sigma^{+}$ and $\sigma^{-}$ transitions at 4.2 K exhibit a power-law dependence on the magnetic field. Such inconsistent magnetic-field effects on different halogens make it difficult to understand the transition-energy behavior through a unified model. We propose a possible mechanism for the field effects that is based on a combination of the Rashba effect induced by strong spin-orbit coupling and the polaron effect caused by the polar nature of the inorganic elements., Comment: 31 pages, 12 figures

Published
2021
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18. Coupled spin-1/2 antiferromagnetic chain Cs$_2$LiRuCl$_6$ with partially disordered crystal lattice

Author

Watanabe, Kazumitsu, Kurita, Nobuyuki, Tanaka, Hidekazu, Sugiyama, Haruki, Uekusa, Hidehiro, Diaz-Ortega, Ismael F., and Nojiri, Hiroyuki

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We determined the crystal structure of Cs$_2$LiRuCl$_6$, which was synthesized first in this work, and investigated its magnetic properties. Cs$_2$LiRuCl$_6$ has a hexagonal structure composed of linear chains of face-sharing RuCl$_6$ and LiCl$_6$ octahedra. In two-thirds of the structural chains, Ru$^{3+}$ and Li$^+$ sites are almost ordered, while in the other chains their sites are disordered. This situation is analogous to the ground state of the antiferromagnetic Ising model on a triangular lattice. Using electron paramagnetic resonance, we evaluated the $g$ factors of Ru$^{3+}$ with effective spin-1/2 as $g_c\,{=}\,2.72$ and $g_{ab}\,{=}\,1.50$ for magnetic fields $H$ parallel and perpendicular to the $c$ axis, respectively. Magnetization curves for $H\,{\parallel}\,c$ and $H\,{\perp}\,c$ are highly anisotropic. However, these magnetization curves approximately coincide when normalized by the $g$ factors. It was found from the magnetization and specific heat results that Cs$_2$LiRuCl$_6$ can be described as a coupled one-dimensional $S\,{=}\,1/2$ Heisenberg-like antiferromagnet with $J/k_{\rm B}\,{\simeq}\,3.7$ K. Three-dimensional ordering occurs at $T_{\rm N}\,{=}\,0.48$ K. A magnetic phase diagram for $H\,{\parallel}\,c$ is also presented., Comment: 9 pages, 12 figures

Published
2020
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19. Ultrastrong Magnon-Magnon Coupling Dominated by Antiresonant Interactions

Author

Makihara, Takuma, Hayashida, Kenji, Noe II, G. Timothy, Li, Xinwei, Peraca, Nicolas Marquez, Ma, Xiaoxuan, Jin, Zuanming, Ren, Wei, Ma, Guohong, Katayama, Ikufumi, Takeda, Jun, Nojiri, Hiroyuki, Turchinovich, Dmitry, Cao, Shixun, Bamba, Motoaki, and Kono, Junichiro

Subjects
Quantum Physics, Condensed Matter - Quantum Gases
Abstract

Exotic quantum vacuum phenomena are predicted in cavity quantum electrodynamics (QED) systems with ultrastrong light-matter interactions. Their ground states are predicted to be vacuum squeezed states with suppressed quantum fluctuations. The source of such phenomena are antiresonant terms in the Hamiltonian, yet antiresonant interactions are typically negligible compared to resonant interactions in light-matter systems. We report an unusual coupled matter-matter system of magnons that can simulate a unique cavity QED Hamiltonian with coupling strengths that are easily tunable into the ultrastrong coupling regime and with dominant antiresonant terms. We found a novel regime where vacuum Bloch-Siegert shifts, the hallmark of antiresonant interactions, greatly exceed analogous frequency shifts from resonant interactions. Further, we theoretically explored the system's ground state and calculated up to 5.9 dB of quantum fluctuation suppression. These observations demonstrate that magnonic systems provide an ideal platform for simulating exotic quantum vacuum phenomena predicted in ultrastrongly coupled light-matter systems., Comment: 36 pages, 4 figures

Published
2020
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20. Magnetic structures and quadratic magnetoelectric effect in LiNiPO$_4$ beyond 30T

Author

Fogh, Ellen, Kihara, Takumi, Toft-Petersen, Rasmus, Bartkowiak, Maciej, Narumi, Yasuo, Prokhnenko, Oleksandr, Miyake, Atsushi, Tokunaga, Masashi, Oikawa, Kenichi, Sørensen, Michael Korning, Dyrnum, Julia Cathrine, Grimmer, Hans, Nojiri, Hiroyuki, and Christensen, Niels Bech

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Neutron diffraction with static and pulsed magnetic fields is used to directly probe the magnetic structures in LiNiPO$_4$ up to 25T and 42T, respectively. By combining these results with magnetometry and electric polarization measurements under pulsed fields, the magnetic and magnetoelectric phases are investigated up to 56T applied along the easy $c$-axis. In addition to the already known transitions at lower fields, three new ones are reported at 37.6, 39.4 and 54T. Ordering vectors are identified with ${\bf Q}_{\mathrm{VI}}$ = (0, 1/3, 0) in the interval 37.6--39.4T and ${\bf Q}_{\mathrm{VII}}$ = (0, 0, 0) in the interval 39.4-54T. A quadratic magnetoelectric effect is discovered in the ${\bf Q}_{\mathrm{VII}}$ = (0, 0, 0) phase and the field-dependence of the induced electric polarization is described using a simple mean-field model. The observed magnetic structure and magnetoelectric tensor elements point to a change in the lattice symmetry in this phase. We speculate on the possible physical mechanism responsible for the magnetoelectric effect in LiNiPO4.

Published
2019
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21. Terahertz Faraday and Kerr rotation spectroscopy of Bi$_{1-x}$Sb$_x$ films in high magnetic fields up to 30 Tesla

Author

Li, Xinwei, Yoshioka, Katsumasa, Xie, Ming, Noe II, G. Timothy, Lee, Woojoo, Peraca, Nicolas Marquez, Gao, Weilu, Hagiwara, Toshio, Orjan, Handegard S., Nien, Li-Wei, Nagao, Tadaaki, Kitajima, Masahiro, Nojiri, Hiroyuki, Shih, Chih-Kang, MacDonald, Allan H., Katayama, Ikufumi, Takeda, Jun, Fiete, Gregory A., and Kono, Junichiro

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

We report results of terahertz Faraday and Kerr rotation spectroscopy measurements on thin films of $\text{Bi}_{1-x}\text{Sb}_{x}$, an alloy system that exhibits a semimetal-to-topological-insulator transition as the Sb composition $x$ increases. By using a single-shot time-domain terahertz spectroscopy setup combined with a table-top pulsed mini-coil magnet, we conducted measurements in magnetic fields up to 30~T, observing distinctly different behaviors between semimetallic ($x < 0.07$) and topological insulator ($x > 0.07$) samples. Faraday and Kerr rotation spectra for the semimetallic films showed a pronounced dip that blue-shifted with the magnetic field, whereas spectra for the topological insulator films were positive and featureless, increasing in amplitude with increasing magnetic field and eventually saturating at high fields ($>$20~T). Ellipticity spectra for the semimetallic films showed resonances, whereas the topological insulator films showed no detectable ellipticity. To explain these observations, we developed a theoretical model based on realistic band parameters and the Kubo formula for calculating the optical conductivity of Landau-quantized charge carriers. Our calculations quantitatively reproduced all experimental features, establishing that the Faraday and Kerr signals in the semimetallic films predominantly arise from bulk hole cyclotron resonances while the signals in the topological insulator films represent combined effects of surface carriers originating from multiple electron and hole pockets. These results demonstrate that the use of high magnetic fields in terahertz magnetopolarimetry, combined with detailed electronic structure and conductivity calculations, allows us to unambiguously identify and quantitatively determine unique contributions from different species of carriers of topological and nontopological nature in Bi$_{1-x}$Sb$_x$., Comment: 17 pages, 22 figures

Published
2019
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22. Degenerate ground state in the classical pyrochlore antiferromagnet Na$_3$Mn(CO$_3$)$_2$Cl

Author

Nawa, Kazuhiro, Okuyama, Daisuke, Avdeev, Maxim, Nojiri, Hiroyuki, Yoshida, Masahiro, Ueta, Daichi, Yoshizawa, Hideki, and Sato, Taku J.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

In an ideal classical pyrochlore antiferromagnet without perturbations, an infinite degeneracy at a ground state leads to absence of a magnetic order and spin-glass transition. Here we present Na$_3$Mn(CO$_3$)$_2$Cl as a new candidate compound where classical spins are coupled antiferromagnetically on the pyrochlore lattice, and report its structural and magnetic properties.The temperature dependences of the magnetic susceptibility and heat capacity, and the magnetization curve are consistent with those of an $S$ = 5/2 pyrochlore lattice antiferromagnet with nearest-neighbor interactions of 2 K. Neither an apparent signature of a spin-glass transition nor a magnetic order is detected in magnetization and heat capacity measurements, or powder neutron diffraction experiments. On the other hand, an antiferromagnetic short-range order from the nearest neighbors is evidenced by the $Q$-dependence of the diffuse scattering which develops around 0.85 \AA$^{-1}$. A high degeneracy near the ground state in Na$_3$Mn(CO$_3$)$_2$Cl is supported by the magnetic entropy estimated as almost 4 J K$^{-2}$ mol$^{-1}$ at 0.5 K., Comment: 9 pages, 7 figures, accepted to PRB

Published
2018
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23. The OVAL experiment: A new experiment to measure vacuum magnetic birefringence using high repetition pulsed magnets

Author

Fan, Xing, Kamioka, Shusei, Inada, Toshiaki, Yamazaki, Takayuki, Namba, Toshio, Asai, Shoji, Omachi, Junko, Yoshioka, Kosuke, Kuwata-Gonokami, Makoto, Matsuo, Akira, Kawaguchi, Koushi, Kindo, Koichi, and Nojiri, Hiroyuki

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

A new experiment to measure vacuum magnetic birefringence (VMB), the OVAL experiment, is reported. We developed an original pulsed magnet that has a high repetition rate and applies the strongest magnetic field among VMB experiments. The vibration isolation design and feedback system enable the direct combination of the magnet with a Fabry-P\'erot cavity. To ensure the searching potential, a calibration measurement with dilute nitrogen gas and a prototype search for vacuum magnetic birefringence are performed. Based on the results, a strategy to observe vacuum magnetic birefringence is reported., Comment: 9 pages, 11 figures

Published
2017
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24. Stellated cuboctahedron of FeIII.

Author

Wilson, Lucinda R. B., Canaj, Angelos B., Cutler, Daniel J., McCormick McPherson, Laura J., Coles, Simon J., Nojiri, Hiroyuki, Evangelisti, Marco, Schnack, Jürgen, Dalgarno, Scott J., and Brechin, Euan K.

Subjects
MAGNETOCALORIC effects, MAGNETIC measurements, CALORIMETRY, HEAT capacity, IRON chlorides
Abstract

The solvothermal reaction of FeCl2 ⋅ 4H2O and H4TBC[4] in a basic dmf/EtOH solution affords an [FeIII18] Keplerate conforming to a stellated cuboctahedron. Magnetic and heat capacity measurements reveal spin frustration effects arising from the high symmetry. A crossover between inverse and direct magnetocaloric effects is observed at ~10 K for applied‐field changes lower than 3 T. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Stellated cuboctahedron of FeIII.

Author

Wilson, Lucinda R. B., Canaj, Angelos B., Cutler, Daniel J., McCormick McPherson, Laura J., Coles, Simon J., Nojiri, Hiroyuki, Evangelisti, Marco, Schnack, Jürgen, Dalgarno, Scott J., and Brechin, Euan K.

Subjects
MAGNETOCALORIC effects, CALORIMETRY, HEAT capacity, IRON chlorides, MAGNETIC measurements, LATTICE constants
Abstract

The solvothermal reaction of FeCl2 ⋅ 4H2O and H4TBC[4] in a basic dmf/EtOH solution affords an [FeIII18] Keplerate conforming to a stellated cuboctahedron. Magnetic and heat capacity measurements reveal spin frustration effects arising from the high symmetry. A crossover between inverse and direct magnetocaloric effects is observed at ~10 K for applied‐field changes lower than 3 T. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Single-Shot Terahertz Time-Domain Spectroscopy in Pulsed High Magnetic Fields

Author

Noe II, G. Timothy, Katayama, Ikufumi, Katsutani, Fumiya, Allred, James J., Horowitz, Jeffrey A., Sullivan, David M., Zhang, Qi, Sekiguchi, Fumiya, Woods, Gary L., Hoffmann, Matthias C., Nojiri, Hiroyuki, Takeda, Jun, and Kono, Junichiro

Subjects
Physics - Instrumentation and Detectors
Abstract

We have developed a single-shot terahertz time-domain spectrometer to perform optical-pump/terahertz-probe experiments in pulsed, high magnetic fields up to 30 T. The single-shot detection scheme for measuring a terahertz waveform incorporates a reflective echelon to create time-delayed beamlets across the intensity profile of the optical gate beam before it spatially and temporally overlaps with the terahertz radiation in a ZnTe detection crystal. After imaging the gate beam onto a camera, we can retrieve the terahertz time-domain waveform by analyzing the resulting image. To demonstrate the utility of our technique, we measured cyclotron resonance absorption of optically excited carriers in the terahertz frequency range in intrinsic silicon at high magnetic fields, with results that agree well with published values., Comment: 8 pages, 7 figures

Published
2016
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27. Studies on the Magnetic Ground State of a Spin M\'obius Strip

Author

Newton, Graham N., Hoshino, Norihisa, Matsumoto, Takuto, Shiga, Takuya, Nakano, Motohiro, Nojiri, Hiroyuki, Wernsdorfer, Wolfgang, Furukawa, Yuji, and Oshio, Hiroki

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Here we report the synthesis, structure and detailed characterisation of three n-membered oxovanadium rings, Na$_n$[(V=O)$_n$Na$_n$(H$_2$O)$_n$($\alpha$, $\beta$, or $\gamma$-CD)$_2$]$m$H$_2$O (n = 6, 7, or 8), prepared by the reactions of (V=O)SO$_4$$\cdot$$x$H$_2$O with $\alpha$, $\beta$, or $\gamma$-cyclodextrins (CDs) and NaOH in water. Their alternating heterometallic vanadium/sodium cyclic core structures were sandwiched between two CD moieties such that O-Na-O groups separated neighbouring vanadyl ions. Antiferromagnetic interactions between the $S$ = 1/2 vanadyl ions led to $S$ = 0 ground states for the even-membered rings, but to two quasi-degenerate $S$ = 1/2 states for the spin-frustrated heptanuclear cluster., Comment: 8 pages, 8 figures, accepted for publication in Chemistry - A European Journal

Published
2016

30. Microscopic examinations of Co valences and spin states in electron-doped LaCoO$_{3}$

Author

Tomiyasu, Keisuke, Koyama, Syun-Ichi, Watahiki, Masanori, Sato, Mika, Nishihara, Kazuki, Takahashi, Yuki, Onodera, Mitsugi, Iwasa, Kazuaki, Nojima, Tsutomu, Nojiri, Hiroyuki, Okamoto, Jun, Huang, Di-Jing, Yamasaki, Yuuichi, Nakao, Hironori, and Murakami, Youichi

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We studied the Co valences and spin states in electron-doped LaCo$_{1-y}$Te$_{y}$O$_3$ by measuring x-ray absorption spectra and electron spin resonance. The low-temperature insulating state involves the low-spin Co$^{3+}$ ($S=0$) and the high-spin Co$^{2+}$ state, which is described by $g=3.8$ and $j_{\rm eff}=1/2$. The results, in concurrence with the electron-hole asymmetry confirmed in electrical resistivity, coincide with a spin-blockade phenomenon in this system. Further, we discuss the $g$ factor in terms of the strong covalent-bonding nature and consider multiple origins of this phenomenon., Comment: 7 pages, 5 figures, and 1 table

Published
2015
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32. Investigation of the impact of A-site cation disorder on the structure, magnetic properties, and magnetic entropy change of trisubstituted divalent ions in La0.7(Ba,Ca,Sr)0.3MnO3 manganite.

Author

Munazat, Dicky Rezky, Kurniawan, Budhy, Kurita, Nobuyuki, Wang, Xiaodong, Manawan, Maykel T. E., Sudiro, Toto, and Nojiri, Hiroyuki

Abstract

This study investigates the effect of A-site disorder, characterized by the average ionic radius (〈rA〉) and the cation mismatch (σ2), on the structural, magnetic, critical behavior, and magnetic entropy changes in La0.7(Ba,Ca,Sr)0.3MnO3 manganites with trisubstituted Ba, Ca, and Sr. The sol–gel method was used to prepare polycrystalline samples. All series of compounds crystallize in rhombohedral symmetry with the R3¯c space group. A linear relationship between lattice parameters, unit cell volume, and 〈rA〉 was observed. This reveals an unusual behavior in the correlation between 〈rA〉 and σ2 concerning magnetic properties, which is attributed to the complex simultaneous trisubstitution of divalent ions. Energy dispersive spectroscopy (EDS) and X-ray photoelectron spectroscopy (XPS) were utilized to validate the chemical composition of compounds. All the samples crystallized in rhombohedral symmetry, and the lattice parameters increased continuously with increasing 〈rA〉. A-site disorder causes distortions in the Mn–O bond length and Mn–O–Mn bond angle in the MnO6 octahedral structure, which influences the double-exchange interaction and electronic bandwidth (W). The Curie temperature (TC) increases linearly with increasing W. The critical behavior around TC for all the samples was investigated by determining the values of the critical exponents (β, γ, and δ) using the modified Arrott plot (MAP) method. The estimated critical exponents show that the unconventional model establishes a short-range ferromagnetic order. The maximum magnetic entropy change (−ΔSM) was obtained with the lowest 〈rA〉 and σ2 value. The analysis of the critical behavior and universal curve indicates a second-order phase transition (SOPT) nature for all samples. [ABSTRACT FROM AUTHOR]

Published
2024
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33. From field-induced to zero-field SMMs associated with open/closed structures of bis(ZnDy) tetranuclear complexes: a combined magnetic, theoretical and optical study

Author

Zabala-Lekuona, Andoni, primary, Lopez de Pariza, Xabier, additional, Díaz-Ortega, Ismael Francisco, additional, Cepeda, Javier, additional, Nojiri, Hiroyuki, additional, Gritsan, Nina P., additional, Dmitriev, A. A., additional, López-Ortega, Alberto, additional, Rodríguez Diéguez, Antonio, additional, Seco, José Manuel, additional, and Colacio, Enrique, additional

Published
2024
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34. Terahertz Cavity Magnon Polaritons

Author

Kritzell, T. Elijah, primary, Baydin, Andrey, additional, Tay, Fuyang, additional, Rodriguez, Rodolfo, additional, Doumani, Jacques, additional, Nojiri, Hiroyuki, additional, Everitt, Henry O., additional, Barsukov, Igor, additional, and Kono, Junichiro, additional

Published
2023
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35. Observation of interplay between phonon chirality and electronic band topology

Author

Hernandez, Felix G. G., primary, Baydin, Andrey, additional, Chaudhary, Swati, additional, Tay, Fuyang, additional, Katayama, Ikufumi, additional, Takeda, Jun, additional, Nojiri, Hiroyuki, additional, Okazaki, Anderson K., additional, Rappl, Paulo H. O., additional, Abramof, Eduardo, additional, Rodriguez-Vega, Martin, additional, Fiete, Gregory A., additional, and Kono, Junichiro, additional

Published
2023
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36. Almost Perfect Frustration in the Dimer Magnet Ba$_2$CoSi$_2$O$_6$Cl$_2$

Author

Tanaka, Hidekazu, Kurita, Nobuyuki, Okada, Makiko, Kunihiro, Eiji, Shirata, Yutaka, Fujii, Kotaro, Uekusa, Hidehiro, Matsuo, Akira, Kindo, Koichi, and Nojiri, Hiroyuki

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We determined the crystal structure of Ba$_2$CoSi$_2$O$_6$Cl$_2$, which was synthesized in this work, and investigated its quantum magnetic properties using single crystals. This compound should be described as a two-dimensionally coupled spin-1/2 XY-like spin dimer system. Ba$_2$CoSi$_2$O$_6$Cl$_2$ exhibits a stepwise magnetization process with a plateau at half of the saturation magnetization, irrespective of the field direction, although all the Co$^{2+}$ sites are equivalent. This indicates that spin triplets are localized owing to the almost perfect frustration of interdimer exchange interactions. Thus, the spin states for the zero and 1/2 magnetization-plateau states are almost exactly given by the simple product of singlet dimers and the alternate product of singlet and triplet dimers, respectively., Comment: 8 pages, 8 figures, published in J. Phys. Soc. Jpn. http://dx.doi.org/10.7566/JPSJ.83.103701

Published
2014
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39. A table-top, repetitive pulsed magnet for nonlinear and ultrafast spectroscopy in high magnetic fields up to 30 T

Author

Noe, G. Timothy, Nojiri, Hiroyuki, Lee, Joseph, Woods, Gary L., Leotin, Jean, and Kono, Junichiro

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have developed a mini-coil pulsed magnet system with direct optical access, ideally suited for nonlinear and ultrafast spectroscopy studies of materials in high magnetic fields up to 30 T. The apparatus consists of a small coil in a liquid nitrogen cryostat coupled with a helium flow cryostat to provide sample temperatures down to below 10 K. Direct optical access to the sample is achieved with the use of easily interchangeable windows separated by a short distance of ~135 mm on either side of the coupled cryostats with numerical apertures of 0.20 and 0.03 for measurements employing the Faraday geometry. As a demonstration, we performed time-resolved and time-integrated photoluminescence measurements as well as transmission measurements on InGaAs quantum wells., Comment: 7 pages, 6 figures

Published
2013
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40. Magnetization Process and Collective Excitations in the S=1/2 Triangular-Lattice Heisenberg Antiferromagnet Ba3CoSb2O9

Author

Susuki, Takuya, Kurita, Nobuyuki, Tanaka, Takuya, Nojiri, Hiroyuki, Matsuo, Akira, Kindo, Koichi, and Tanaka, Hidekazu

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We have performed high-field magnetization and ESR measurements on Ba$_3$CoSb$_2$O$_9$ single crystals, as a representative two-dimensional spin-1/2 Heisenberg antiferromagnet on a uniform triangular lattice, and have determined all the magnetic parameters. For an applied magnetic field $H$ parallel to the $ab$-plane, the entire magnetization curve including the plateau at one-third of the saturation magnetization ($M_\mathrm{s}$) is in excellent agreement with the results of theoretical calculations except an anomaly near $(3/5)M_\mathrm{s}$, indicative of an additional field-induced transition. However, for $H\,{\parallel}\,c$, the magnetization curve exhibits a cusp near $M_\mathrm{s}/3$. Paramagnetic resonance signals above the N\'eel temperature indicate the nearly isotropic $g$-factor. A detailed analysis of the collective ESR modes observed in the ordered state, combined with the magnetization process, provides evidence of the weak easy-plane anisotropy., Comment: 5 pages, 4 figures

Published
2013
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41. A single-solenoid pulsed-magnet system for single-crystal scattering studies

Author

Islam, Zahirul, Capatina, Dana, Ruff, Jacob P. C., Das, Ritesh K., Trakhtenberg, Emil, Nojiri, Hiroyuki, Narumi, Yasuo, Welp, Ulrich, and Canfield, Paul C.

Subjects
Physics - Instrumentation and Detectors, Condensed Matter - Strongly Correlated Electrons
Abstract

We present a pulsed-magnet system that enables x-ray single-crystal diffraction in addition to powder and spectroscopic studies with the magnetic field applied on or close to the scattering plane. The apparatus consists of a single large-bore solenoid, cooled by liquid nitrogen. A second independent closed-cycle cryostat is used for cooling samples near liquid helium temperatures. Pulsed magnetic fields close to $\sim 30$ T with a zero-to-peak-field rise time of $\sim$2.9 ms are generated by discharging a 40 kJ capacitor bank into the magnet coil. The unique characteristic of this instrument is the preservation of maximum scattering angle ($\sim 23.6^\circ$) on the entrance and exit sides of the magnet bore by virtue of a novel double-funnel insert. This instrument will facilitate x-ray diffraction and spectroscopic studies that are impractical, if not impossible, to perform using split-pair and narrow-opening solenoid magnets, and offers a practical solution for preserving optical access in future higher-field pulsed magnets., Comment: Accepted for publication in Rev. Sci. Instrum

Published
2011
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42. Time-resolved one-dimensional detection of x-ray scattering in pulsed magnetic fields

Author

Islam, Zahirul, Ruff, Jacob P. C., Ross, Kate A., Nojiri, Hiroyuki, and Gaulin, Bruce D.

Subjects
Physics - Instrumentation and Detectors, Condensed Matter - Materials Science
Abstract

We have developed an application of a one-dimensional micro-strip detector for capturing x-ray diffraction data in pulsed magnetic fields. This detector consists of a large array of 50 \mu m-wide Si strips with a full-frame read out at 20 kHz. Its use substantially improves data-collection efficiency and quality as compared to point detectors, because diffraction signals are recorded along an arc in reciprocal space in a time-resolved manner. By synchronizing with pulsed fields, the entire field dependence of a two-dimensional swath of reciprocal space may be determined using a small number of field pulses., Comment: Submitted to Rev. Sci. Instrum

Published
2011
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43. Determination of exchange energies in the sawtooth spin ring {Mo75V20} by ESR

Author

Oshima, Yugo, Nojiri, Hiroyuki, Schnack, Jürgen, Kögerler, Paul, and Luban, Marshall

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The magnetism of the polyoxometalate cluster {Mo75V20}, containing a sawtooth ring of 10 corner-sharing triangles located on the equator of the barrel-shaped molecule, has remained debatable since it is masked by contributions from impurities as well as temperature-independent paramagnetism. In this article we demonstrate the usefulness of ESR measurements since the temperature dependence of the ESR intensity can discriminate between impurity and molecular contributions. We determine the exchange parameters and therefore also the low-lying spectrum of {Mo75V20}, especially the low-lying singlet states which so far have been probed solely by specific heat measurements., Comment: 5 pages, 5 figures, submitted to PRB

Published
2011
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44. Reply to 'Comment on `Transition from Bose glass to a condensate of triplons in Tl$_{1-x}$K$_x$CuCl$_3$''

Author

Yamada, Fumiko, Tanaka, Hidekazu, Ono, Toshio, and Nojiri, Hiroyuki

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Showing low-temperature specific heat and other experimental data and also on the basis of established physics, we argue against the comment made by Zheludev and H\"{u}vonnen criticizing our recent study on the magnetic-field-induced spin ordering and critical behavior in Tl$_{1-x}$K$_x$CuCl$_3$, which is described as the Bose glass-condensate transition of triplons., Comment: 2 pages, 2 figures, accepted for publication in Phys. Rev. B

Published
2011
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45. Bose Glass-BEC Transition of Magnons in Tl$_{1-x}$K$_x$CuCl$_3$

Author

Yamada, Fumiko, Tanaka, Hidekazu, Ono, Toshio, and Nojiri, Hiroyuki

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report the magnetic-field induced Bose glass$-$BEC transition of magnons in Tl$_{1-x}$K$_x$CuCl$_3$ and its critical behavior investigated through specific heat and ESR measurements. The field dependence of the BEC transition temperature $T_{\rm N}$ can be described by the power law $\left[H\,{-}\,H_{\rm c}\right]\,{\propto}\,T_{\rm N}^{\phi}$ near the quantum critical point $H_{\rm c}\,{\sim}\,3.5$ T. The critical exponent ${\phi}$ tends to reach a value smaller than 1/2 with decreasing fitting window in contrast with ${\phi}\rightarrow 3/2$ for the standard BEC in pure system. At sufficiently low temperatures, the ESR line shape for $H\,{\simeq}\,H_{\rm c}$ is intermediate between Gaussian and Lorentzian. This indicates the localization of magnons for $H\,{<}H_{\rm c}$ at T=0., Comment: 5 pages, 3 figures

Published
2010

46. Heat capacity uncovers physics of a frustrated spin tube

Author

Ivanov, N. B., Schnack, J., Schnalle, R., Richter, J., Koegerler, P., Newton, G. N., Cronin, L., Oshima, Y., and Nojiri, Hiroyuki

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We report on refined experimental results concerning the low-temperature specific heat of the frustrated spin tube material [(CuCl2tachH)3Cl]Cl2. This substance turns out to be an unusually perfect spin tube system which allows to study the physics of quasi-one dimensional antiferromagnetic structures in rather general terms. An analysis of the specific heat data demonstrates that at low enough temperatures the system exhibits a Tomonaga-Luttinger liquid behavior corresponding to an effective spin-3/2 antiferromagnetic Heisenberg chain with short-range exchange interactions. On the other hand, at somewhat elevated temperatures the composite spin structure of the chain is revealed through a Schottky-type peak in the specific heat located around 2 K. We argue that the dominating contribution to the peak originates from gapped magnon-type excitations related to the internal degrees of freedom of the rung spins., Comment: 4+ pages, 6 figures

Published
2010
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47. Elementary excitations of S=1/2 one-dimensional antiferromagnet KCuGaF6 in magnetic field and quantum sine-Gordon model

Author

Umegaki, Izumi, Ono, Toshio, Tanaka, Hidekazu, Uekusa, Hidehiro, and Nojiri, Hiroyuki

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Elementary excitations of the S=1/2 one-dimensional Heisenberg antiferromagnet KCuGaF$_6$ with exchange constant $J/k_B$=103 K were investigated by high-frequency ESR measurements combined with a pulsed high magnetic field. When an external magnetic field H is applied in KCuGaF$_6$, a staggered magnetic field h is induced perpendicular to H owing to the staggered g tensor and the Dzyaloshinsky-Moriya (DM) interaction with an alternating D vector. Consequently, KCuGaF$_6$ in a magnetic field is represented by the quantum sine-Gordon (SG) model. We observed many resonance modes including a soliton resonance, breathers, interbreather transitions and two-breather excitation. Their resonance conditions are beautifully described by the quantum SG field theory with one adjustable parameter $c_ s=h/H$. To investigate the relationship between the Curie term due to the DM interaction and the proportional coefficient $c_s$, magnetic susceptibility measurements were also performed varying the external field direction., Comment: 9 pages, 6 figures

Published
2009
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48. Terahertz Cavity Magnon Polaritons.

Author

Kritzell, T. Elijah, Baydin, Andrey, Tay, Fuyang, Rodriguez, Rodolfo, Doumani, Jacques, Nojiri, Hiroyuki, Everitt, Henry O., Barsukov, Igor, and Kono, Junichiro

Subjects
MAGNONS, POLARITONS, TERAHERTZ time-domain spectroscopy, MAGNETIC field measurements, FERROMAGNETIC materials, QUANTUM information science, MAGNETIC materials
Abstract

Hybrid light–matter coupled states, or polaritons, in magnetic materials have attracted significant attention due to their potential for enabling novel applications in spintronics and quantum information processing. However, most magnon‐polariton studies in the strong coupling regime to date have been carried out for ferromagnetic materials with magnon excitations at gigahertz frequencies. Here, strong resonant photon–magnon coupling at frequencies above 1 terahertz is investigated for the first time in a prototypical room‐temperature antiferromagnetic insulator, NiO, inside a Fabry–Pérot cavity. The cavity is formed by the crystal itself with a thickness adjusted to an optimal value. Terahertz time‐domain spectroscopy measurements in magnetic fields up to 25 T reveal the evolution of the magnon frequency through Fabry–Pérot cavity modes with photon–magnon anticrossing behavior, demonstrating clear vacuum Rabi splittings exceeding the polariton linewidths. These results show that NiO is a promising platform for exploring antiferromagnetic spintronics and cavity magnonics in the terahertz frequency range. [ABSTRACT FROM AUTHOR]

Published
2024
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