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1. Energy-scale competition in the Hall resistivity of a strange metal

Author

Shekhter, A., Modic, K. A., Winter, L. E., Lai, Y., Chan, M. K., Balakirev, F. F., Betts, J. B., Komiya, S., Ono, S., Boebinger, G. S., Ramshaw, B. J., and McDonald, R. D.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Anomalous transport behavior -- both longitudinal and Hall -- is the defining characteristic of the strange-metal state of High-Tc cuprates. The temperature, frequency, and magnetic field dependence of the resistivity is understood within strange metal phenomenology as resulting from energy-scale competition to set the inelastic relaxation rate. The anomalously strong temperature dependence of the Hall coefficient, however, is at odds with this phenomenology. Here we report measurements of the Hall resistivity in the strange metal state of cuprates over a broad range of magnetic fields and temperatures. The observed field and temperature dependent Hall resistivity at very high magnetic fields reveals a distinct high-field regime which is controlled by energy-scale competition. This extends the strange metal phenomenology in the cuprates to include the Hall resistivity and suggests, in particular, that the direct effect of magnetic field on the relaxation dynamics of quantum fluctuations may be at least partially responsible for the anomalous Hall resistivity of the strange metal state.

Published
2022

2. Competition between spin ordering and superconductivity near the pseudogap boundary in La2-xSrxCuO4: insights from NMR

Author

Vinograd, I., Zhou, R., Mayaffre, H., Krämer, S., Ramakrishna, S. K., Reyes, A. P., Kurosawa, T., Momono, N., Oda, M., Komiya, S., Ono, S., Horio, M., Chang, J., and Julien, M. -H.

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

When superconductivity is suppressed by high magnetic fields in La2-xSrxCuO4, striped antiferromagnetic (AFM) order becomes the magnetic ground state of the entire pseudogap regime, up to its end at the doping p* [M. Frachet, I. Vinograd et al., Nat. Phys. 16, 1064 (2020)]. Glass-like freezing of this state is detected in 139La NMR measurements of the spin-lattice relaxation rate 1/T1. Here, we present a quantitative analysis of 1/T1 data in the hole-doping range p=x=0.12-0.171, based on the Bloembergen-Purcell-Pound (BPP) theory, modified to include statistical distribution of parameters arising from strong spatial inhomogeneity. We observe spin fluctuations to slow down at temperatures T near the onset of static charge order and, overall, the effect of the field B may be seen as equivalent to strengthening stripe order by approaching p=0.12 doping. In details however, our analysis reveals significant departure from usual field-induced magnetic transitions. The continuous growth of the amplitude of the fluctuating moment with increasing B suggests a nearly-critical state in the B->0 limit, with very weak quasi-static moments possibly confined in small areas like vortex cores. Further, the nucleation of spin order in the vortex cores is shown to account quantitatively for both the value and the p dependence of a field scale characterizing bulk spin freezing. The correlation time of the fluctuating moment appears to depend exponentially on B/T (over the investigated range). This explains the timescale dependence of various experimental manifestations, including why, for transport measurements, the AFM moments may be considered static over a considerable range of B and T. These results make the high-field magnetic ground state up to p* an integral part of the discussion on putative quantum criticality.

Published
2022
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3. Reconciling scaling of the optical conductivity of cuprate superconductors with Planckian resistivity and specific heat

Author

Michon, B., Berthod, C., Rischau, C. W., Ataei, A., Chen, L., Komiya, S., Ono, S., Taillefer, L., van der Marel, D., and Georges, A.

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

Materials tuned to a quantum critical point display universal scaling properties as a function of temperature $T$ and frequency $\omega$. A long-standing puzzle regarding cuprate superconductors has been the observed power-law dependence of optical conductivity with an exponent smaller than one, in contrast to $T$-linear dependence of the resistivity and $\omega$-linear dependence of the optical scattering rate. Here, we present and analyze resistivity and optical conductivity of La$_{2-x}$Sr$_x$CuO$_4$ with $x=0.24$. We demonstrate $\hbar\omega/k_{\mathrm{B}} T$ scaling of the optical data over a wide range of frequency and temperature, $T$-linear resistivity, and optical effective mass proportional to $\sim \ln T$ corroborating previous specific heat experiments. We show that a $T,\omega$-linear scaling Ansatz for the inelastic scattering rate leads to a unified theoretical description of the experimental data, including the power-law of the optical conductivity. This theoretical framework provides new opportunities for describing the unique properties of quantum critical matter., Comment: Accepted version

Published
2022
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4. The spectral weight of hole doped cuprates across the pseudogap critical point

Author

Michon, B., Kuzmenko, A. B., Tran, M. K., McElfresh, B., Komiya, S., Ono, S., Uchida, S., and van der Marel, D.

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

One of the most widely discussed features of the cuprate high Tc superconductors is the presence of a pseudogap in the normal state. Recent transport and specific heat measurements have revealed an abrupt transition at the pseudogap critical point, denoted p*, characterized by a drop in carrier density and a strong mass enhancement. In order to give more details about this transition at p*, we performed low-temperature infrared spectroscopy in the normal state of cuprate superconductors La2-xSrxCuO4 (LSCO) and La1.8-xEu0.2SrxCuO4 (Eu-LSCO) for doping contents across the pseudogap critical point p* (from p = 0.12 to 0.24). Through the complex optical conductivity we can extract the spectral weight, K*, of the narrow Drude peak due the coherent motion of the quasi-particles, and the spectral weight enclosed inside the mid-infrared (MIR) band, KMIR, caused by coupling of the quasi-particles to collective excitations of the many-body system. K* is smaller than a third of the value predicted by band calculations, and KMIR forms a dome as a function of doping. We observe a smooth doping dependence of K* through p*, and demonstrate that this is consistent with the observed doping dependence of the carrier density and the mass enhancement. We argue that the superconducting dome is the result of the confluence of two opposite trends, namely the increase of the density of the quasi-particles and the decrease of their coupling to the collective excitations as a function of doping., Comment: 8 pages, 4 figures

Published
2021
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5. Quantum fluctuations of charge order induce phonon softening in a superconducting cuprate

Author

Huang, H. Y., Singh, A., Mou, C. Y., Johnston, S., Kemper, A. F., Brink, J. van den, Chen, P. J., Lee, T. K., Okamoto, J., Chu, Y. Y., Li, J. H., Komiya, S., Komarek, A. C., Fujimori, A., Chen, C. T., and Huang, D. J.

Subjects
Condensed Matter - Superconductivity
Abstract

Quantum phase transitions play an important role in shaping the phase diagram of high-temperature cuprate superconductors. These cuprates possess intertwined orders which interact strongly with superconductivity. However, the evidence for the quantum critical point associated with the charge order in the superconducting phase remains elusive. Here we show the short-range charge orders and the spectral signature of the quantum fluctuations in La$_{2-x}$Sr$_x$CuO$_4$ (LSCO) near the optimal doping using high-resolution resonant inelastic X-ray scattering. On performing calculations through a diagrammatic framework, we discovered that the charge correlations significantly soften several branches of phonons. These results elucidate the role of charge order in the LSCO compound, providing evidence for quantum critical scaling and discommensurations associated with charge order., Comment: 9 pages, 4 figures

Published
2021
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6. Sulfur-induced magnetism in FeSe$_{1-x}$S$_x$ thin films on LaAlO$_3$ revealed by muon spin rotation/relaxation

Author

Nabeshima, F., Kawai, Y., Shikama, N., Sakishita, Y., Suter, A., Prokscha, T., Park, S. E., Komiya, S., Ichinose, A., Adachi, T., and Maeda, A.

Subjects
Condensed Matter - Superconductivity
Abstract

Muon spin rotation/relaxation measurements were performed to investigate magnetic properties of FeSe$_{1-x}$S$_x$ thin films on LaAlO$_3$. A drastic decrease of the initial asymmetry was observed together with the peak structure in the temperature dependence of the relaxation rate of muon spins almost at the same temperature where kink anomalies were observed in the temperature dependent resistivity. With increasing S content, the anomaly temperature increased and the magnetic fluctuations at the lowest temperature were suppressed. These results show that the S substitution induces magnetism at low temperatures in FeSe$_{1-x}$S$_x$ thin films. Although the behaviors of the magnetic and nematic phases in FeSe films towards chemical pressure by S substitution are similar to those for bulk FeSe towards hydrostatic pressure, the behavior of $T_{\mathrm c}$ is significantly different between these systems. Our results demonstrate that the detailed comparative investigation among physical and chemical pressure effects is essentially important to understand the interplay of the magnetism, the nematicity and the superconductivity in iron chalcogenides., Comment: 19 pages, 5 figures

Published
2021
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7. Acoustic plasmons and conducting carriers in hole-doped cuprate superconductors

Author

Singh, A., Huang, H. Y., Lane, Christopher, Li, J. H., Okamoto, J., Komiya, S., Markiewicz, Robert S., Bansil, Arun, Fujimori, A., Chen, C. T., and Huang, D. J.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The superconductivity of cuprates, which has been a mystery ever since its discovery decades ago, is created through doping electrons or holes into a Mott insulator. There, however, exists an inherent electron-hole asymmetry in cuprates. The layered crystal structures of cuprates enable collective charge excitations fundamentally different from those of three-dimensional metals, i.e., acoustic plasmons. Acoustic plasmons have been recently observed in electron-doped cuprates by resonant inelastic X-ray scattering (RIXS); in contrast, there is no evidence for acoustic plasmons in hole-doped cuprates, despite extensive measurements. This contrast led us to investigate whether the doped holes in cuprates La$_{2-x}$Sr$_x$CuO$_4$ are conducting carriers or are too incoherent to induce collective charge excitation. Here we present momentum-resolved RIXS measurements and calculations of collective charge response via the loss function to reconcile the aforementioned issues. Our results provide unprecedented spectroscopic evidence for the acoustic plasmons and long sought conducting p holes in hole-doped cuprates.

Published
2020
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8. Emergence of quasiparticles in a doped Mott insulator

Author

Wang, Y, He, Y, Wohlfeld, K, Hashimoto, M, Huang, EW, Lu, D, Mo, SK, Komiya, S, Jia, C, Moritz, B, Shen, ZX, and Devereaux, TP

Abstract

How a Mott insulator develops into a weakly coupled metal upon doping is a central question to understanding various emergent correlated phenomena. To analyze this evolution and its connection to the high-Tc cuprates, we study the single-particle spectrum for the doped Hubbard model using cluster perturbation theory on superclusters. Starting from extremely low doping, we identify a heavily renormalized quasiparticle dispersion that immediately develops across the Fermi level, and a weakening polaronic side band at higher binding energy. The quasiparticle spectral weight roughly grows at twice the rate of doping in the low doping regime, but this rate is halved at optimal doping. In the heavily doped regime, we find both strong electron-hole asymmetry and a persistent presence of Mott spectral features. Finally, we discuss the applicability of the single-band Hubbard model to describe the evolution of nodal spectra measured by angle-resolved photoemission spectroscopy (ARPES) on the single-layer cuprate La2−xSrxCuO4 (0 ≤ x ≤ 0.15). This work benchmarks the predictive power of the Hubbard model for electronic properties of high-Tc cuprates.

Published
2020

9. CloudRoots-Amazon22: Integrating clouds with photosynthesis by crossing scales

Author

de Arellano, J. Vilà-Guerau, Hartogensis, O. K., de Boer, H., Moonen, R., González-Armas, R., Janssens, M., Adnew, G. A., Bonell-Fontás, D. J., Botía, S., Jones, S. P., van Asperen, H., Komiya, S., de Feiter, V. S., Rikkers, D., de Haas, S., Machado, L. A. T., Dias-Junior, C. Q., Giovanelli-Haytzmann, G., Valenti, W. I. D., Figueiredo, R. C., Farias, C. S., Hall, D. H., Mendonça, A. C. S., da Silva, F. A. G., da Silva, J. L. Marton, Souza, R., Martins, G., Miller, J. N., Mol, W. B., Heusinkveld, B., van Heerwaarden, C. C., D’Oliveira, F. A. F., Ferreira, R. Rodrigues, Gotuzzo, R. Acosta, Pugliese, G., Williams, J., Ringsdorf, A., Edtbauer, A., Quesada, C. A., Portela, B. Takeshi Tanaka, Alves, E. Gomes, Pöhlker, C., Trumbore, S., Lelieveld, J., Röckmann, T., de Arellano, J. Vilà-Guerau, Hartogensis, O. K., de Boer, H., Moonen, R., González-Armas, R., Janssens, M., Adnew, G. A., Bonell-Fontás, D. J., Botía, S., Jones, S. P., van Asperen, H., Komiya, S., de Feiter, V. S., Rikkers, D., de Haas, S., Machado, L. A. T., Dias-Junior, C. Q., Giovanelli-Haytzmann, G., Valenti, W. I. D., Figueiredo, R. C., Farias, C. S., Hall, D. H., Mendonça, A. C. S., da Silva, F. A. G., da Silva, J. L. Marton, Souza, R., Martins, G., Miller, J. N., Mol, W. B., Heusinkveld, B., van Heerwaarden, C. C., D’Oliveira, F. A. F., Ferreira, R. Rodrigues, Gotuzzo, R. Acosta, Pugliese, G., Williams, J., Ringsdorf, A., Edtbauer, A., Quesada, C. A., Portela, B. Takeshi Tanaka, Alves, E. Gomes, Pöhlker, C., Trumbore, S., Lelieveld, J., and Röckmann, T.

Abstract

How are rain forest photosynthesis and turbulent fluxes influenced by clouds? To what extent are clouds affected by local processes driven by rain forest energy, water, and carbon fluxes? These interrelated questions were the main drivers of the intensive field experiment CloudRoots-Amazon22 which took place at the Amazon Tall Tower Observatory (ATTO)/Campina supersites in the Amazon rain forest during the dry season, in August 2022. CloudRoots-Amazon22 collected observational data to derive cause–effect relationships between processes occurring at the leaf level up to canopy scales in relation to the diurnal evolution of the clear-to-cloudy transition. First, we studied the impact of cloud and canopy radiation perturbations on the subdiurnal variability of stomatal conductance. Stoma opening is larger in the morning, modulated by the cloud optical thickness. Second, we combined 1-Hz frequency measurements of the stable isotopologues of carbon dioxide and water vapor with measurements of turbulence to determine carbon dioxide and water vapor sources and sinks within the canopy. Using scintillometer observations, we inferred 1-min sensible heat flux that responded within minutes to the cloud passages. Third, collocated profiles of state variables and greenhouse gases enabled us to determine the role of clouds in vertical transport. We then inferred, using canopy and upper-atmospheric observations and a parameterization, the cloud cover and cloud mass flux to establish causality between canopy and cloud processes. This shows the need for a comprehensive observational set to improve weather and climate model representations. Our findings contribute to advance our knowledge of the coupling between cloudy boundary layers and primary carbon productivity of the Amazon rain forest.

Published
2024

10. Point-contact Andreev-reflection spectroscopy in Fe(Te,Se) films: multiband superconductivity and electron-boson coupling

Author

Daghero, D., Pecchio, P., Ummarino, G. A., Nabeshima, F., Imai, Y., Maeda, A., Tsukada, I., Komiya, S., and Gonnelli, R. S.

Subjects
Condensed Matter - Superconductivity
Abstract

We report on a study of the superconducting order parameter in Fe(Te$_{1-x}$Se$_{x}$) thin films (with different Se contents: x=0.3, 0.4, 0.5) by means of point-contact Andreev-reflection spectroscopy (PCARS). The PCARS spectra show reproducible evidence of multiple structures, namely two clear conductance maxima associated to a superconducting gap of amplitude $\Delta_E \simeq 2.75 k_B T_c$ and additional shoulders at higher energy that, as we show, are the signature of the strong interaction of charge carriers with a bosonic mode whose characteristic energy coincides with the spin-resonance energy. The details of some PCARS spectra at low energy suggest the presence of a smaller and not easily discernible gap of amplitude $\Delta_H \simeq 1.75 k_B T_c$. The existence of this gap and its amplitude are confirmed by PCARS measurements in Fe(Te$_{1-x}$Se$_{x}$) single crystals. The values of the two gaps $\Delta_E$ and $\Delta_H$, once plotted as a function of the local critical temperature $T_c^A$, turn out to be in perfect agreement with the results obtained by various experimental techniques reported in literature., Comment: 8 pages, 6 figures. This is an author-created, un-copyedited version of an article published in Supercond. Sci. Technol. IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The Version of Record is available online at 10.1088/0953-2048/27/12/124014

Published
2014
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11. Curie-like paramagnetism due to incomplete Zhang-Rice singlet formation in La2-xSrxCuO4

Author

Kaiser, C. V., Huang, W., Komiya, S., Hussey, N. E., Adachi, T., Tanabe, Y., Koike, Y., and Sonier, J. E.

Subjects
Condensed Matter - Superconductivity
Abstract

In an effort to elucidate the origin of the Curie-like paramagnetism that is generic for heavily-overdoped cuprates, we have performed high transverse-field muon spin rotation (TF-muSR) measurements of La2-xSrxCuO4 single crystals over the Sr content range 0.145 < x < 0.33. We show that the x-dependence of the previously observed field-induced broadening of the internal magnetic field distribution above the superconducting transition temperature Tc reflects the presence of two distinct contributions. One of these becomes less pronounced with increasing x and is attributed to diminishing antiferromagnetic correlations. The other grows with increasing x, but decreases above x ~ 0.30, and is associated with the Curie-like term in the bulk magnetic susceptibility. In contrast to the Curie-like term, however, this second contribution to the TF-muSR line width extends back into the underdoped regime. Our findings imply a coexistence of antiferromagnetically correlated and paramagnetic moments, with the latter becoming dominant beyond x ~ 0.185. This suggests that the doped holes do not neutralize all Cu spins via the formation of Zhang-Rice singlets. Moreover, the paramagnetic component of the TF-muSR line width is explained by holes progressively entering the Cu 3d_{x^2-y^2} orbital with doping., Comment: 8 pages, 7 figures

Published
2012
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12. Precision Search for Magnetic Order in the Pseudogap Regime of La2-xSrxCuO4 by Muon Spin Relaxation

Author

Huang, W., Pacradouni, V., Kennett, M. P., Komiya, S., and Sonier, J. E.

Subjects
Condensed Matter - Superconductivity
Abstract

We report a high precision search for orbital-like magnetic order in the pseudogap region of La2-xSrxCuO4 single crystals using zero-field muon spin relaxation (ZF-muSR). In contrast to previous studies of this kind, the effects of the dipolar and quadrupolar interactions of the muon with nearby nuclei are calculated. ZF-muSR spectra with a high number of counts were also recorded to determine whether a magnetically ordered phase exists in dilute regions of the sample. Despite these efforts, we find no evidence for static magnetic order of any kind in the pseudogap region above the hole-doping concentration p = 0.13., Comment: 8 pages, 7 figures

Published
2012
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13. Epitaxial growth of FeSe$_{0.5}$Te$_{0.5}$ thin films on CaF$_2$ substrates with high critical current density

Author

Tsukada, I., Hanawa, M., Akiike, T., Nabeshima, F., Imai, Y., Ichinose, A., Komiya, S., Hikage, T., Kawaguchi, T., Ikuta, H., and Maeda, A.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

In-situ epitaxial growth of FeSe$_{0.5}$Te$_{0.5}$ thin films is demonstrated on a non-oxide substrate CaF$_2$. Structural analysis reveals that compressive stress is moderately added to 36-nm thick FeSe$_{0.5}$Te$_{0.5}$, which pushes up the critical temperature above 15 K, showing higher values than that of bulk crystals. Critical current density at $T$ = 4.5 K reaches 5.9 x 10$^4$ Acm$^{-2}$ at $\mu_0H$ = 10 T, and 4.2 x 10$^4$ Acm$^{-2}$ at $\mu_0H$ = 14 T. These results indicate that fluoride substrates have high potential for the growth of iron-based superconductors in comparison with popular oxide substrates., Comment: 9 pages, 3 figures, to be published in Applied Physics Express 4, 053101 (2011)

Published
2011
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14. Unravelling the glue and the competing order in superconducting cuprates

Author

Caprara, S., Di Castro, C., Muschler, B., Hackl, R., Lambacher, M., Erb, A., Komiya, S., Ando, Y., and Grilli, M.

Subjects
Condensed Matter - Superconductivity
Abstract

We present Raman scattering experiments in ${\rm La_{2-x}Sr_xCuO_4}$ single crystals at various doping levels x and compare the results with theoretical predictions obtained assuming an interaction mediated by spin and charge fluctuations. The light-scattering selection rules allow us to disentangle their respective contributions. We find that the glue spectral function is spin-dominated at low doping while the contribution of charge fluctuations becomes dominant around optimal doping. This indicates that the fluctuations of a nearly ordered state with coexisting spin and charge order support the superconducting pairing., Comment: 10 pages, 7 figures, Table position corrected, abstract and references extended

Published
2010

15. Doping dependence of the $(\pi,\pi)$ shadow band in La-based cuprates studied by angle-resolved photoemission spectroscopy

Author

He, Rui-Hua, Zhou, X. J., Hashimoto, M., Yoshida, T., Tanaka, K., Mo, S. -K., Sasagawa, T., Mannella, N., Meevasana, W., Yao, Hong, Fujita, M., Adachi, T., Komiya, S., Uchida, S., Ando, Y., Zhou, F., Zhao, Z. X., Fujimori, A., Koike, Y., Yamada, K., Hussain, Z., and Shen, Z. -X.

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

The $(\pi,\pi)$ shadow band (SB) in La-based cuprate family (La214) was studied by angle-resolved photoemission spectroscopy (ARPES) over a wide doping range from $x=0.01$ to $x=0.25$. Unlike the well-studied case of the Bi-based cuprate family, an overall strong, monotonic doping dependence of the SB intensity at the Fermi level ($E_F$) was observed. In contrast to a previous report for the presence of the SB only close to $x=1/8$, we found it exists in a wide doping range, associated with a doping-independent $(\pi,\pi)$ wave vector but strongly doping-dependent intensity: It is the strongest at $x\sim 0.03$ and systematically diminishes as the doping increases until it becomes negligible in the overdoped regime. This SB with the observed doping dependence of intensity can in principle be caused by the antiferromagnetic fluctuations or a particular form of low-temperature orthorhombic lattice distortion known to persist up to $x\sim 0.21$ in the system, with both being weakened with increasing doping. However, a detailed binding energy dependent analysis of the SB at $x=0.07$ does not appear to support the former interpretation, leaving the latter as a more plausible candidate, despite a challenge in quantitatively linking the doping dependences of the SB intensity and the magnitude of the lattice distortion. Our finding highlights the necessity of a careful and global consideration of the inherent structural complications for correctly understanding the cuprate Fermiology and its microscopic implication., Comment: Note the revised conclusion and author list; To appear in New J. Phys

Published
2009
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16. Direct Search for a Ferromagnetic Phase in a Heavily Overdoped Nonsuperconducting Copper Oxide

Author

Sonier, J. E., Kaiser, C. V., Pacradouni, V., Sabok-Sayr, S. A., Cochrane, C., MacLaughlin, D. E., Komiya, S., and Hussey, N. E.

Subjects
Condensed Matter - Superconductivity
Abstract

The doping of charge carriers into the CuO2 planes of copper oxide Mott insulators causes a gradual destruction of antiferromagnetism and the emergence of high-temperature superconductivity. Optimal superconductivity is achieved at a doping concentration p beyond which further increases in doping cause a weakening and eventual disappearance of superconductivity. A potential explanation for this demise is that ferromagnetic fluctuations compete with superconductivity in the overdoped regime. In this case a ferromagnetic phase at very low temperatures is predicted to exist beyond the doping concentration at which superconductivity disappears. Here we report on a direct examination of this scenario in overdoped La2-xSrxCuO4 using the technique of muon spin relaxation. We detect the onset of static magnetic moments of electronic origin at low temperature in the heavily overdoped nonsuperconducting region. However, the magnetism does not exist in a commensurate long-range ordered state. Instead it appears as a dilute concentration of static magnetic moments. This finding places severe restrictions on the form of ferromagnetism that may exist in the overdoped regime. Although an extrinsic impurity cannot be absolutely ruled out as the source of the magnetism that does occur, the results presented here lend support to electronic band calculations that predict the occurrence of weak localized ferromagnetism at high doping., Comment: 13 pages, 5 figures

Published
2009
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17. Hall effect in superconducting Fe(Se0.5Te0.5) thin films

Author

Tsukada, I., Hanawa, M., Komiya, S., Akiike, T., Tanaka, R., Imai, Y., and Maeda, A.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

The Hall effect is investigated for eight superconducting Fe(Se_0.5_Te_0.5_) thin films grown on MgO and LaSrAlO_4_ substrates with different transition temperatures (T_c_). The normal Hall coefficients (R_H_) have positive values with magnitude of 1 - 1.5 x 10^-3^ cm^3^/C at room temperature for the all samples. With decreasing temperature, we find two characteristic types of behavior in R_H_(T) depending on T_c_. For thin films with lower T_c_ (typically T_c_ < 5 K), R_H_ start decreasing approximately below T = 250 K toward a negative side, some of which shows sign reversal at T = 50 - 60 K, but turns positive toward T = 0 K. On the other hand for the films with higher T_c_ (typically T_c_ > 9 K), R_ H_ leaves almost unchanged down to T = 100 K, and then starts decreasing toward a negative side. Around the temperatures when R_H_ changes its sign from positive to negative, obvious nonlinearity is observed in the field-dependence of Hall resistance as to keep the low-field R_H_ positive while the high-field R_H_ negative. Thus the electronic state just above T_c_ is characterized by n_e_ (electron density) > n_h_ (hole density) with keeping \mu_e_ < \mu_h_. These results suggest the dominance of electron density to the hole density is an essential factor for the occurence of superconductivity in Fe-chalcogenide superconductors., Comment: 11 pages, 4 figures, revised version for Physical Review B. accepted for publication in Physical Review B

Published
2009
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18. Inhomogeneous Magnetic-Field Response of YBa2Cu3Oy and La2-xSrxCuO4 Persisting above the Bulk Superconducting Transition Temperature

Author

Sonier, J. E., Ilton, M., Pacradouni, V., Kaiser, C. V., Sabok-Sayr, S. A., Ando, Y., Komiya, S., Hardy, W. N., Bonn, D. A., Liang, R., and Atkinson, W. A.

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

We report that in YBa2Cu3Oy and La2-xSrxCuO4 there is a spatially inhomogeneous response to magnetic field for temperatures T extending well above the bulk superconducting transition temperature Tc. An inhomogeneous magnetic response is observed above Tc even in ortho-II YBa2Cu3O6.50, which has highly ordered doping. The degree of the field inhomogeneity above Tc tracks the hole doping dependences of both Tc and the density of the superconducting carriers below Tc, and therefore is apparently coupled to superconductivity., Comment: Modified discussion

Published
2008
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19. Spin-glass state of vortices in YBa2Cu3Oy and La2-xSrxCuO4 below the metal-to-insulator crossover

Author

Sonier, J. E., Callaghan, F. D., Ando, Y., Kiefl, R. F., Brewer, J. H., Kaiser, C. V., Pacradouni, V., Sabok-Sayr, S. A., Sun, X. F., Komiya, S., Hardy, W. N., Bonn, D. A., and Liang, R.

Subjects
Condensed Matter - Superconductivity
Abstract

Highly disordered magnetism confined to individual weakly interacting vortices is detected by muon spin rotation in two different families of high-transition-temperature superconductors, but only in samples on the low-doping side of the low-temperature normal state metal-to-insulator crossover (MIC). The results support an extended quantum phase transition (QPT) theory of competing magnetic and superconducting orders that incorporates the coupling between CuO2 planes. Contrary to what has been inferred from previous experiments, the static magnetism that coexists with superconductivity near the field-induced QPT is not ordered. Our findings unravel the mystery of the MIC and establish that the normal state of high-temperature superconductors is ubiquitously governed by a magnetic quantum critical point in the superconducting phase., Comment: 9 pages, 9 figures

Published
2007
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20. The hierarchy of multiple many-body interaction scales in high-temperature superconductors

Author

Meevasana, W., Zhou, X. J., Sahrakorpi, S., Lee, W. S., Yang, W. L., Tanaka, K., Mannella, N., Yoshida, T., Lu, D. H., Chen, Y. L., He, R. H., Lin, Hsin, Komiya, S., Ando, Y., Zhou, F., Ti, W. X., Xiong, J. W., Zhao, Z. X., Sasagawa, T., Kakeshita, T., Fujita, K., Uchida, S., Eisaki, H., Fujimori, A., Hussain, Z., Markiewicz, R. S., Bansil, A., Nagaosa, N., Zaanen, J., Devereaux, T. P., and Shen, Z. -X.

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

To date, angle-resolved photoemission spectroscopy has been successful in identifying energy scales of the many-body interactions in correlated materials, focused on binding energies of up to a few hundred meV below the Fermi energy. Here, at higher energy scale, we present improved experimental data from four families of high-Tc superconductors over a wide doping range that reveal a hierarchy of many-body interaction scales focused on: the low energy anomaly ("kink") of 0.03-0.09eV, a high energy anomaly of 0.3-0.5eV, and an anomalous enhancement of the width of the LDA-based CuO2 band extending to energies of ~ 2 eV. Besides their universal behavior over the families, we find that all of these three dispersion anomalies also show clear doping dependence over the doping range presented., Comment: 7 pages, 6 figures

Published
2006
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21. Avoided Quantum Criticality in YBa_2Cu_3O_y and La_{2-x}Sr_xCuO_4

Author

Sonier, J. E., Callaghan, F. D., Ando, Y., Kiefl, R. F., Brewer, J. H., Kaiser, C. V., Pacradouni, V., Sabok-Sayr, S. -A., Sun, X. F., Komiya, S., Hardy, W. N., Bonn, D. A., and Liang, R.

Subjects
Condensed Matter - Superconductivity
Abstract

Spin-glass magnetism confined to individual weakly interacting vortices is detected in two different families of high-transition-temperature (T_c) superconductors, but only in samples on the low-doping side of the low-temperature normal state metal-to-insulator crossover (MIC). Our findings unravel the mystery of the MIC, but more importantly identify the true location of the field-induced quantum phase transition (QPT) in the superconducting state. The non-uniform appearance of magnetism in the vortex state favours a surprisingly exotic phase diagram, in which spatially inhomogeneous competing order is stabilized at the QPT, and an `avoided' quantum critical point (QCP) is realized at zero magnetic field., Comment: 4 pages, 3 figures, submitted to PRL

Published
2006

23. Competition between spin ordering and superconductivity near the pseudogap boundary in La2−xSrxCuO4 : Insights from NMR

Author

Vinograd, I., primary, Zhou, R., additional, Mayaffre, H., additional, Krämer, S., additional, Ramakrishna, S. K., additional, Reyes, A. P., additional, Kurosawa, T., additional, Momono, N., additional, Oda, M., additional, Komiya, S., additional, Ono, S., additional, Horio, M., additional, Chang, J., additional, and Julien, M.-H., additional

Published
2022
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24. Competition between spin ordering and superconductivity near the pseudogap boundary in La2−xSrxCuO4: Insights from NMR

Author

Vinograd, I; https://orcid.org/0000-0002-1054-3741, Zhou, R, Mayaffre, H, Krämer, S, Ramakrishna, S K; https://orcid.org/0000-0002-9748-1714, Reyes, A P; https://orcid.org/0000-0003-2638-5474, Kurosawa, T; https://orcid.org/0000-0001-5065-6823, Momono, N, Oda, M, Komiya, S, Ono, S; https://orcid.org/0000-0003-1514-8879, Horio, M, Chang, J; https://orcid.org/0000-0002-4655-1516, Julien, M-H; https://orcid.org/0000-0003-2378-3258, Vinograd, I; https://orcid.org/0000-0002-1054-3741, Zhou, R, Mayaffre, H, Krämer, S, Ramakrishna, S K; https://orcid.org/0000-0002-9748-1714, Reyes, A P; https://orcid.org/0000-0003-2638-5474, Kurosawa, T; https://orcid.org/0000-0001-5065-6823, Momono, N, Oda, M, Komiya, S, Ono, S; https://orcid.org/0000-0003-1514-8879, Horio, M, Chang, J; https://orcid.org/0000-0002-4655-1516, and Julien, M-H; https://orcid.org/0000-0003-2378-3258

Abstract

When superconductivity is suppressed by high magnetic fields in La2−xSrxCuO4, striped antiferromagnetic (AFM) order becomes the magnetic ground state of the entire pseudogap regime, up to its end at the doping p∗ [Frachet, Vinograd et al., Nat. Phys. 16, 1064 (2020)]. Glass-like freezing of this state is detected in 139La NMR measurements of the spin-lattice relaxation rate T−11. Here, we present a quantitative analysis of T−11 data in the hole-doping range p=x=0.12−0.171, based on the Bloembergen-Purcell-Pound (BPP) theory, modified to include statistical distribution of parameters arising from strong spatial inhomogeneity. We observe spin fluctuations to slow down at temperatures T near the onset of static charge order and, overall, the effect of the field B may be seen as equivalent to strengthening stripe order by approaching p=0.12 doping. In details, however, our analysis reveals significant departure from usual field-induced magnetic transitions. The continuous growth of the amplitude of the fluctuating moment with increasing B suggests a nearly-critical state in the B→0 limit, with very weak quasistatic moments possibly confined in small areas like vortex cores. Further, the nucleation of spin order in the vortex cores is shown to account quantitatively for both the value and the p dependence of a field scale characterizing bulk spin freezing. The correlation time of the fluctuating moment appears to depend exponentially on B/T (over the investigated range). This explains the timescale dependence of various experimental manifestations, including why, for transport measurements, the AFM moments may be considered static over a considerable range of B and T. These results make the high-field magnetic ground state up to p∗ an integral part of the discussion on putative quantum criticality.

Published
2022

25. P-384 Efficacy of endometrial microbiome metagenomic analysis with recurrent implantation failure and recurrent pregnancy loss: multicenter study in Japan

Author

Iwami, N, primary, Komiya, S, additional, Asada, Y, additional, Tatsumi, K, additional, Habara, T, additional, Kuramoto, T, additional, Seki, M, additional, Yoshida, H, additional, Takeuchi, K, additional, Shiotani, M, additional, Mukaida, T, additional, Odawara, Y, additional, Mio, Y, additional, and Kamiya, H, additional

Published
2022
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27. Competition between spin ordering and superconductivity near the pseudogap boundary in La2−xSrxCuO4: Insights from NMR

Author

Vinograd, I, Zhou, R, Mayaffre, H, Krämer, S, Ramakrishna, S K, Reyes, A P, Kurosawa, T, Momono, N, Oda, M, Komiya, S, Ono, S, Horio, M, Chang, J, Julien, M-H, and University of Zurich

Subjects
Superconductivity (cond-mat.supr-con), Condensed Matter - Strongly Correlated Electrons, 3104 Condensed Matter Physics, Strongly Correlated Electrons (cond-mat.str-el), 530 Physics, Condensed Matter - Superconductivity, FOS: Physical sciences, 2504 Electronic, Optical and Magnetic Materials, Condensed Matter::Strongly Correlated Electrons, 10192 Physics Institute
Abstract

When superconductivity is suppressed by high magnetic fields in La2-xSrxCuO4, striped antiferromagnetic (AFM) order becomes the magnetic ground state of the entire pseudogap regime, up to its end at the doping p* [M. Frachet, I. Vinograd et al., Nat. Phys. 16, 1064 (2020)]. Glass-like freezing of this state is detected in 139La NMR measurements of the spin-lattice relaxation rate 1/T1. Here, we present a quantitative analysis of 1/T1 data in the hole-doping range p=x=0.12-0.171, based on the Bloembergen-Purcell-Pound (BPP) theory, modified to include statistical distribution of parameters arising from strong spatial inhomogeneity. We observe spin fluctuations to slow down at temperatures T near the onset of static charge order and, overall, the effect of the field B may be seen as equivalent to strengthening stripe order by approaching p=0.12 doping. In details however, our analysis reveals significant departure from usual field-induced magnetic transitions. The continuous growth of the amplitude of the fluctuating moment with increasing B suggests a nearly-critical state in the B->0 limit, with very weak quasi-static moments possibly confined in small areas like vortex cores. Further, the nucleation of spin order in the vortex cores is shown to account quantitatively for both the value and the p dependence of a field scale characterizing bulk spin freezing. The correlation time of the fluctuating moment appears to depend exponentially on B/T (over the investigated range). This explains the timescale dependence of various experimental manifestations, including why, for transport measurements, the AFM moments may be considered static over a considerable range of B and T. These results make the high-field magnetic ground state up to p* an integral part of the discussion on putative quantum criticality.

Published
2022
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31. Quantum Fluctuations of Charge Order Induce Phonon Softening in a Superconducting Cuprate

Author

Huang, H. Y., primary, Singh, A., additional, Mou, C. Y., additional, Johnston, S., additional, Kemper, A. F., additional, van den Brink, J., additional, Chen, P. J., additional, Lee, T. K., additional, Okamoto, J., additional, Chu, Y. Y., additional, Li, J. H., additional, Komiya, S., additional, Komarek, A. C., additional, Fujimori, A., additional, Chen, C. T., additional, and Huang, D. J., additional

Published
2021
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45. X-ray reflectivity from ZnSe/GaAs heterostructures

Author

Ulyanenkov, A., Takase, A., Kuribayashi, M., Ishida, K., Ohtake, A., Arai, K., Hanada, T., Yasuda, T., Yao, T., Tomita, H., and Komiya, S.

Subjects
Reflectance spectroscopy -- Usage, Gallium arsenide -- Research, Thin films -- Research, Physics
Abstract

The bulk structure of ZnSe films grown by molecular beam epitaxy GaAs substrates as well as the ZnSe/GaAs interface are analyzed using x-ray reflectivity. The focus of the analysis is the description of the interface composition and the quality of the surface and interface. By employing a distorted-wave Born approximation technique, the experimental x-ray reflectivity curves, measured at different wavelengths by synchrotron radiation, were simulated. The results are discussed.

Published
1999

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