Your search keyword '"Takegami, D."' showing total 29 results

1. Gapless dynamic magnetic ground state in the charge-gapped trimer iridate Ba$_4$NbIr$_3$O$_{12}$

Author

Bandyopadhyay, Abhisek, Lee, S., Adroja, D. T., Lees, M. R., Stenning, G. B. G., Aich, P., Tortora, Luca, Meneghini, C., Cibin, G., Berlie, Adam, Saha, R. A., Takegami, D., Melendez-Sans, A., Poelchen, G., Yoshimura, M., Tsuei, K. D., Hu, Z., Chan, Ting-Shan, Chattopadhyay, S., Thakur, G. S., and Choi, Kwang-Yong

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present an experimental investigation of the magnetic ground state in Ba$_4$NbIr$_3$O$_{12}$, a fractional valent trimer iridate. X-ray absorption and photoemission spectroscopy show that the Ir valence lies between 3+ and 4+ while Nb is pentavalent. Combined dc/ac magnetization, specific heat, and muon spin rotation/relaxation ($\mu$SR) measurements reveal no magnetic phase transition down to 0.05~K. Despite a significant Weiss temperature ($\Theta_{\mathrm{W}} \sim -15$ to $-25$~K) indicating antiferromagnetic correlations, a quantum spin-liquid (QSL) phase emerges and persists down to 0.1~K. This state likely arises from geometric frustration in the edge-sharing equilateral triangle Ir network. Our $\mu$SR analysis reveals a two-component depolarization, arising from the coexistence of rapidly (90\%) and slowly (10\%) fluctuating Ir moments. Powder x-ray diffraction and Ir-L$_3$edge x-ray absorption fine structure spectroscopy identify ~8-10\% Nb/Ir site-exchange, reducing frustration within part of the Ir network, and likely leading to the faster muon spin relaxation, while the structurally ordered Ir ions remain highly geometrically frustrated, giving rise to the rapidly spin-fluctuating QSL ground state. At low temperatures, the magnetic specific heat varies as $\gamma T + \alpha T^2$, indicating gapless spinon excitations, and possible Dirac QSL features with linear spinon dispersion, respectively., Comment: 27 pages, 15 figures

Published

2024

2. Novel quantum spin liquid ground state in the trimer rhodate Ba$_4$NbRh$_3$O$_{12}$

Author

Bandyopadhyay, Abhisek, Lee, S., Adroja, D. T., Stenning, G. B. G., Berlie, Adam, Lees, M. R., Saha, R. A., Takegami, D., Melendez-Sans, A., Poelchen, G., Yoshimura, M., Tsuei, K. D., Hu, Z., Kao, Cheng-Wei, Huang, Yu-Cheng, Chan, Ting-Shan, and Cho, Kwang-Yong

Subjects

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

Abstract

Frustrated magnets offer a plethora of exotic magnetic ground states, including quantum spin liquids (QSLs), in which enhanced quantum fluctuations prevent a long-range magnetic ordering of the strongly correlated spins down to lowest temperature. Here we have investigated the trimer based mixed valence hexagonal rhodate Ba$_4$NbRh$_3$O$_{12}$ using a combination of dc and ac magnetization, electrical resistivity, specific heat, and muon spin rotation/relaxation ($\mu$SR) measurements. Despite the substantial antiferromagnetic exchange interactions, as evident from the Weiss temperature ($\theta_{\mathrm{W}}\sim -35$ to -45 K), among the Rh-local moments, neither long-range magnetic ordering nor spin-freezing is observed down to at least 50 mK, in ac-susceptibility, specific heat and ZF-$\mu$SR measurements (down to 0.26 K). We ascribe the absence of any magnetic transition to enhanced quantum fluctuations as a result of geometrical frustration arising out of the edge-sharing equilateral Rh-triangular network in the structure. Our longitudinal-field $\mu$SR result evidences persistent spin fluctuations down to 0.26~K, thus stabilizing a dynamic QSL ground state in Ba$_4$NbRh$_3$O$_{12}$. Furthermore, the magnetic specific heat ($C_{\mathrm{m}}$) data at low-$T$ reveal a significant $T$-linear contribution plus a quadratic $T$-dependence. A $T$-linear behavior is evocative of gapless spin excitations, while the $T^2$-term of $C_{\mathrm{m}}$ may indicate the Dirac QSL phenomenology of the spinon excitations with a linear dispersion., Comment: 21 pages, 11 figures

Published

2024

3. Linear dichroic x-ray absorption response of Ti-Ti dimers along the $c$ axis in Ti$_2$O$_3$ upon Mg substitution

Author

Okawa, M., Takegami, D., Christovam, D. S., Ferreira-Carvalho, M., Kuo, C. -Y., Chen, C. T., Miyoshino, T., Takasu, K., Okuda, T., Chang, C. F., Tjeng, L. H., and Mizokawa, T.

Subjects

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

Abstract

Corundum oxide Ti$_2$O$_3$ shows the metal-insulator transition around 400-600 K accompanying the nearest Ti$^{3+}$-Ti$^{3+}$ bond ($a_{1g}a_{1g}$ singlet state) formation along the $c$ axis. In order to clarify the hole-doping effect for the $a_{1g}a_{1g}$ singlet bond in Ti$_2$O$_3$, we investigated Ti $3d$ orbital anisotropy between corundum-type Ti$_2$O$_3$ and ilmenite-type MgTiO$_3$ using linear dichroism of soft x-ray absorption spectroscopy of the Ti $L_{2,3}$ edge. From the linear dichroic spectral weight in Mg$_y$Ti$_{2-y}$O$_3$, we confirmed that the $a_{1g}a_{1g}$ state is dominant not only in $y=0.01$ (almost Ti$_2$O$_3$), but also in $y = 0.29$, indicating that the Ti-Ti bond survives against a certain level of hole doping. In $y=0.63$ corresponding to 46% hole doping per Ti, the $3d$ orbital symmetry changes from $a_{1g}$ to $e_g^{\pi}$., Comment: 5 pages, 5 figures

Published

2023

4. CaCu$_3$Ru$_4$O$_{12}$: a high Kondo-temperature transition metal oxide

Author

Takegami, D., Kuo, C. Y., Kasebayashi, K., Kim, J. -G., Chang, C. F., Liu, C. E., Wu, C. N., Kasinathan, D., Altendorf, S. G., Hoefer, K., Meneghin, F., Marino, A., Liao, Y. F., Tsuei, K. D., Chen, C. T., Ko, K. -T., Günther, A., Ebbinghaus, S. G., Seo, J. W., Lee, D. H., Ryu, G., Komarek, A. C., Sugano, S., Shimakawa, Y., Tanaka, A., Mizokawa, T., Kuneš, J., Tjeng, L. H., and Hariki, A.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We present a comprehensive study of CaCu$_3$Ru$_4$O$_{12}$ using bulk sensitive hard and soft x-ray spectroscopy combined with local-density approximation (LDA) + dynamical mean-field theory (DMFT) calculations. Correlation effects on both the Cu and Ru ions can be observed. From the Cu $2p$ core level spectra we deduce the presence of magnetic Cu$^{2+}$ ions hybridized with a reservoir of itinerant electrons. The strong photon energy dependence of the valence band allows us to disentangle the Ru, Cu, and O contributions and thus to optimize the DMFT calculations. The calculated spin and charge susceptibilities show that the transition metal oxide CaCu$_3$Ru$_4$O$_{12}$ must be classified as a Kondo system and that the Kondo temperature is in the range of 500-1000 K., Comment: Accepted for publication in Phys. Rev. X

Published

2021

5. Charge transfer energy in iridates: a hard x-ray photoelectron spectroscopy study

Author

Takegami, D., Kasinathan, D., Wolff, K. K., Altendorf, S. G., Chang, C. F., Hoefer, K., Melendez-Sans, A., Utsumi, Y., Meneghin, F., Ha, T. D., Yen, C. H., Chen, K., Kuo, C. Y., Liao, Y. F., Tsuei, K. D., Morrow, R., Wurmehl, S., Büchner, B., Prasad, B. E., Jansen, M., Komarek, A. C., Hansmann, P., and Tjeng, L. H.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We have investigated the electronic structure of iridates in the double perovskite crystal structure containing either Ir$^{4+}$ or Ir$^{5+}$ using hard x-ray photoelectron spectroscopy. The experimental valence band spectra can be well reproduced using tight binding calculations including only the Ir $5d$, O $2p$ and O $2s$ orbitals with parameters based on the downfolding of the density-functional band structure results. We found that regardless of the A and B cations, the A$_2$BIrO$_6$ iridates have essentially zero O $2p$ to Ir $5d$ charge transfer energies. Hence, double perovskite iridates turn out to be extremely covalent systems with the consequence being that the magnetic exchange interactions become very long-ranged, thereby hampering the materialization of the long-sought Kitaev physics. Nevertheless, it still would be possible to realize a spin-liquid system using the iridates with a proper tuning of the various competing exchange interactions., Comment: 9 pages, 7 figures, submitted to Physical Review B

Published

2020

6. Growth monitoring with sub-monolayer sensitivity via real time thermal conductance measurements

Author

Ferrando-Villalba, P., Takegami, D., Abad, Ll., Ràfols-Ribé, J., Lopeandía, A., Garcia, G., and Rodríguez-Viejo, J.

Subjects

Physics - Applied Physics

Abstract

Growth monitoring during the early stages of film formation is of prime importance to understand the growth process, the microstructure and thus the overall layer properties. In this work, we demonstrate that phonons can be used as sensitive probes to monitor real time evolution of film microstructure during growth, from incipient clustering to continuous film formation. For that purpose, a silicon nitride membrane-based sensor has been fabricated to measure in-plane thermal conductivity of thin film samples. Operating with the 3{\omega}-V\"olklein method at low frequencies, the sensor shows an exceptional resolution down to {\Delta}({\kappa}*t)=0.065 nm*W/(m*K), enabling accurate measurements. Validation of the sensor performance is done with organic and metallic thin films. In both cases, at early stages of growth, we observe an initial reduction of the effective thermal conductance of the supporting amorphous membrane, K, related with the surface phonon scattering enhanced by the incipient nanoclusters formation. As clusters develop, K reaches a minimum at the percolation threshold. Subsequent island percolation produces a sharp increase of the conductance and once the surface coverage is completed K increases linearly with thickness The thermal conductivity of the deposited films is obtained from the variation of K with thickness.

Published

2018

7. Electronic signature of the vacancy ordering in NbO (Nb3O3)

Author

Efimenko, A. K., Hollmann, N., Hoefer, K., Weinen, J., Takegami, D., Wolff, K. K., Altendorf, S. G., Hu, Z., Rata, A. D., Komarek, A. C., Nugroho, A. A., Liao, Y. F., Tsuei, K. -D., Hsieh, H. H., Lin, H. -J., Chen, C. T., Tjeng, L. H., and Kasinathan, D.

Subjects

Condensed Matter - Materials Science

Abstract

We investigated the electronic structure of the vacancy-ordered 4d-transition metal monoxide NbO (Nb3O3) using angle-integrated soft- and hard-x-ray photoelectron spectroscopy as well as ultra-violet angle-resolved photoelectron spectroscopy. We found that density-functional-based band structure calculations can describe the spectral features accurately provided that self-interaction effects are taken into account. In the angle-resolved spectra we were able to identify the so-called vacancy band that characterizes the ordering of the vacancies. This together with the band structure results indicates the important role of the very large inter-Nb-4d hybridization for the formation of the ordered vacancies and the high thermal stability of the ordered structure of niobium monoxide.

Published

2017

8. Interplay between strongly localized Eu 4f and weakly localized Nb 4d electrons in Eu3Nb5O15

Author

Nakamura, R., primary, Takegami, D., additional, Melendez-Sans, A., additional, Tjeng, L. H., additional, Miyoshino, T., additional, Iwamoto, K., additional, Sekino, W., additional, Yoshimura, M., additional, Tsuei, K.-D., additional, Katsufuji, T., additional, and Mizokawa, T., additional

Published

2024

9. Bulk electronic structure of AV3Sb5 (A=K, Cs) studied by hard x-ray photoemission spectroscopy: Possibility of bond order without charge disproportionation

Author

Takegami, D., primary, Fujinuma, K., additional, Nakamura, R., additional, Yoshimura, M., additional, Tsuei, K.-D., additional, Saini, N. L., additional, Wang, Zhiwei, additional, Yin, Jia-Xin, additional, and Mizokawa, T., additional

Published

2024

10. Conductive surface states and Kondo exhaustion in insulating YbIr3Si7

Author

Stavinoha, Macy, primary, Huang, C.-L., additional, Phelan, W. Adam, additional, Hallas, Alannah M., additional, Loganathan, V., additional, Michiardi, M., additional, Falke, J., additional, Zhdanovich, Sergey, additional, Takegami, D., additional, Liu, C.-E., additional, Tsuei, K. D., additional, Chen, C. T., additional, Qian, Long, additional, Ng, Nicholas J., additional, Lynn, Jeffrey W., additional, Huang, Qingzhen, additional, Weickert, Franziska, additional, Zapf, Vivien, additional, Larsen, Katharine R., additional, Sparks, Patricia D., additional, Eckert, James C., additional, Puthirath, Anand B., additional, Kung, Hsiang-Hsi, additional, Pedersen, Tor M., additional, Gorovikov, Sergey, additional, Damascelli, A., additional, Tjeng, L. H., additional, Hooley, C., additional, Nevidomskyy, Andriy H., additional, and Morosan, E., additional

Published

2024

11. Linear dichroic x-ray absorption response of Ti-Ti dimers along the c axis in Ti2O3 upon Mg substitution

Author

Okawa, M., primary, Takegami, D., additional, Christovam, D. S., additional, Ferreira-Carvalho, M., additional, Kuo, C.-Y., additional, Chen, C. T., additional, Miyoshino, T., additional, Takasu, K., additional, Okuda, T., additional, Chang, C. F., additional, Tjeng, L. H., additional, and Mizokawa, T., additional

Published

2023

12. Electronic structure of the Fe2+ compound FeWO4 : A combined experimental and theoretical x-ray photoelectron spectroscopy study

Author

Altendorf, S. G., primary, Takegami, D., additional, Meléndez-Sans, A., additional, Chang, C. F., additional, Yoshimura, M., additional, Tsuei, K. D., additional, Tanaka, A., additional, Schmidt, M., additional, and Tjeng, L. H., additional

Published

2023

13. Intra c -axis dimer hybridization and mixed valency in Mg-doped Ti2O3

Author

Miyoshino, T., primary, Takegami, D., additional, Meléndez-Sans, A., additional, Nakamura, R., additional, Yoshimura, M., additional, Tsuei, K.-D., additional, Takasu, K., additional, Okuda, T., additional, Tjeng, L. H., additional, and Mizokawa, T., additional

Published

2023

14. Electronic structure reconstruction by trimer formation in CsW2O6 studied by x-ray photoelectron spectroscopy

Author

Nakamura, R., primary, Takegami, D., additional, Melendez-Sans, A., additional, Tjeng, L. H., additional, Okawa, M., additional, Miyoshino, T., additional, Saini, N. L., additional, Kitamura, M., additional, Shiga, D., additional, Kumigashira, H., additional, Yoshimura, M., additional, Tsuei, K.-D., additional, Okamoto, Y., additional, and Mizokawa, T., additional

Published

2022

15. CaCu₃Ru₄O₁₂: A High-Kondo-Temperature Transition-Metal Oxide

Author

Takegami, D., Kuo, C.-Y., Kasebayashi, K., Kim, J.-G., Chang, C. F., Liu, C. E., Wu, C. N., Kasinathan, D., Altendorf, S. G., Hoefer, K., Meneghin, F., Marino, A., Liao, Y. F., Tsuei, K. D., Chen, C. T., Ko, K.-T., Günther, A., Ebbinghaus, S. G., Seo, J. W., Lee, D. H., Ryu, G., Komarek, A. C., Sugano, S., Shimakawa, Y., Tanaka, A., Mizokawa, T., Kuneš, J., Tjeng, L. H., Hariki, A., Takegami, D., Kuo, C.-Y., Kasebayashi, K., Kim, J.-G., Chang, C. F., Liu, C. E., Wu, C. N., Kasinathan, D., Altendorf, S. G., Hoefer, K., Meneghin, F., Marino, A., Liao, Y. F., Tsuei, K. D., Chen, C. T., Ko, K.-T., Günther, A., Ebbinghaus, S. G., Seo, J. W., Lee, D. H., Ryu, G., Komarek, A. C., Sugano, S., Shimakawa, Y., Tanaka, A., Mizokawa, T., Kuneš, J., Tjeng, L. H., and Hariki, A.

Abstract

We present a comprehensive study of CaCu₃Ru₄O₁₂ using bulk sensitive hard and soft x-ray spectroscopy combined with local-density approximation + dynamical mean-field theory (DMFT) calculations. Correlation effects on both the Cu and Ru ions can be observed. From the Cu 2p core-level spectra, we deduce the presence of magnetic Cu²⁺ ions hybridized with a reservoir of itinerant electrons. The strong photon energy dependence of the valence band allows us to disentangle the Ru, Cu, and O contributions and, thus, to optimize the DMFT calculations. The calculated spin and charge susceptibilities show that the transition metal oxide CaCu₃Ru₄O₁₂ must be classified as a Kondo system and that the Kondo temperature is in the range of 500–1000 K.

Published

2022

16. CaCu3Ru4O12 : A High-Kondo-Temperature Transition-Metal Oxide

Author

Takegami, D., primary, Kuo, C.-Y., additional, Kasebayashi, K., additional, Kim, J.-G., additional, Chang, C. F., additional, Liu, C. E., additional, Wu, C. N., additional, Kasinathan, D., additional, Altendorf, S. G., additional, Hoefer, K., additional, Meneghin, F., additional, Marino, A., additional, Liao, Y. F., additional, Tsuei, K. D., additional, Chen, C. T., additional, Ko, K.-T., additional, Günther, A., additional, Ebbinghaus, S. G., additional, Seo, J. W., additional, Lee, D. H., additional, Ryu, G., additional, Komarek, A. C., additional, Sugano, S., additional, Shimakawa, Y., additional, Tanaka, A., additional, Mizokawa, T., additional, Kuneš, J., additional, Tjeng, L. H., additional, and Hariki, A., additional

Published

2022

17. Electronic structure of the metallic oxide ReO3

Author

Falke, J., primary, Chang, C. F., additional, Liu, C. E., additional, Takegami, D., additional, Melendez-Sans, A., additional, Chen, C.-S., additional, Zhao, L., additional, Komarek, A. C., additional, Kuo, C.-Y., additional, Chen, C. T., additional, and Tjeng, L. H., additional

Published

2021

18. Charge-transfer energy in iridates: A hard x-ray photoelectron spectroscopy study

Author

Takegami, D., primary, Kasinathan, D., additional, Wolff, K. K., additional, Altendorf, S. G., additional, Chang, C. F., additional, Hoefer, K., additional, Melendez-Sans, A., additional, Utsumi, Y., additional, Meneghin, F., additional, Ha, T. D., additional, Yen, C. H., additional, Chen, K., additional, Kuo, C. Y., additional, Liao, Y. F., additional, Tsuei, K. D., additional, Morrow, R., additional, Wurmehl, S., additional, Büchner, B., additional, Prasad, B. E., additional, Jansen, M., additional, Komarek, A. C., additional, Hansmann, P., additional, and Tjeng, L. H., additional

Published

2020

19. Valence band hard x-ray photoelectron spectroscopy on transition-metal oxides containing rare-earth elementsValence band hard x-ray photoelectron spectroscopy on transition-metal oxides containing rare-earth elements

Author

Takegami, D., Nicolai, Laurent Christophe, Koethe, T. C., Kasinathan, Deepa, Kuo, Changyang, Liao, Yenfa, Tsuei, Kuding, Panaccione, Giancarlo C., Offi, Francesco, Monaco, Giulio, Brookes, Nicholas B., Minár, Jan, and Tjeng, Liu Hao

Subjects

ANGULAR-DISTRIBUTION PARAMETERS, HIGH-ENERGY PHOTOEMISSION, ELECTRONIC-STRUCTURE

Abstract

Here we report on our study to quantitatively describe the intensities of the valence band hard x-ray photoemission spectra (HAXPES) of a rare earth element containing 3d transition metal oxides. Using LaCoO3 as a representative model compound, we compared the experimental data to the results of ab initio one-step photoemission band structure calculations as well as to the sum of the partial density of states of the atomic constituents weighted by their tabulated photoionization cross sections. We discovered that the semicore La 5p density of states surprisingly contributes in a significant manner to the valence band spectrum: Although the La 5p partial density of states in the valence band region is negligible compared to that of the O 2p or the Co 3d, the La 5p cross section in the hard x-ray range is found to be orders of magnitude larger than that of the other subshells. This explains the long-standing issue of why the hard x-ray valence band spectra of a rare-earth element containing materials have line shapes that are very different from those taken at lower photon energies and why they cannot be described in terms of partial density of states of the subshells usually considered for the lower photon energy spectra. We infer that the contribution of the rare-earth 5p must be taken into account and cannot be ignored.

Published

2019

20. Valence band hard x-ray photoelectron spectroscopy on 3d transition-metal oxides containing rare-earth elements

Author

Takegami, D., Nicolai, L., Koethe, T. C., Kasinathan, D., Kuo, C. Y., Liao, Y. F., Tsuei, K. D., Panaccione, G., Offi, F., Monaco, G., Brookes, N. B., Minar, J., Tjeng, L. H., Takegami, D., Nicolai, L., Koethe, T. C., Kasinathan, D., Kuo, C. Y., Liao, Y. F., Tsuei, K. D., Panaccione, G., Offi, F., Monaco, G., Brookes, N. B., Minar, J., and Tjeng, L. H.

Abstract

Here we report on our study to quantitatively describe the intensities of the valence band hard x-ray photoemission spectra (HAXPES) of a rare earth element containing 3d transition metal oxides. Using LaCoO3 as a representative model compound, we compared the experimental data to the results of ab initio one-step photoemission band structure calculations as well as to the sum of the partial density of states of the atomic constituents weighted by their tabulated photoionization cross sections. We discovered that the semicore La 5p density of states surprisingly contributes in a significant manner to the valence band spectrum: Although the La 5p partial density of states in the valence band region is negligible compared to that of the O 2p or the Co 3d, the La 5p cross section in the hard x-ray range is found to be orders of magnitude larger than that of the other subshells. This explains the long-standing issue of why the hard x-ray valence band spectra of a rare-earth element containing materials have line shapes that are very different from those taken at lower photon energies and why they cannot be described in terms of partial density of states of the subshells usually considered for the lower photon energy spectra. We infer that the contribution of the rare-earth 5p must be taken into account and cannot be ignored.

Published

2019

21. Growth Monitoring With Submonolayer Sensitivity Via Real-Time Thermal-Conductance Measurements

Author

Ferrando-Villalba, P., primary, Takegami, D., additional, Abad, Ll., additional, Ràfols-Ribé, J., additional, Lopeandia, A., additional, Garcia, G., additional, and Rodriguez-Viejo, J., additional

Published

2019

22. Valence band hard x-ray photoelectron spectroscopy on 3d transition-metal oxides containing rare-earth elements

Author

Takegami, D., primary, Nicolaï, L., additional, Koethe, T. C., additional, Kasinathan, D., additional, Kuo, C. Y., additional, Liao, Y. F., additional, Tsuei, K. D., additional, Panaccione, G., additional, Offi, F., additional, Monaco, G., additional, Brookes, N. B., additional, Minár, J., additional, and Tjeng, L. H., additional

Published

2019

23. Electronic signature of the vacancy ordering in NbO(Nb3O3)

Author

Efimenko, A. K., primary, Hollmann, N., additional, Hoefer, K., additional, Weinen, J., additional, Takegami, D., additional, Wolff, K. K., additional, Altendorf, S. G., additional, Hu, Z., additional, Rata, A. D., additional, Komarek, A. C., additional, Nugroho, A. A., additional, Liao, Y. F., additional, Tsuei, K.-D., additional, Hsieh, H. H., additional, Lin, H.-J., additional, Chen, C. T., additional, Tjeng, L. H., additional, and Kasinathan, D., additional

Published

2017

24. Valence band hard x-ray photoelectron spectroscopy on rare-earth element containing 3d transition metal oxides

Author

D. Takegami, L. Nicolaï, T. C. Koethe, D. Kasinathan, C. Y. Kuo, Y. F. Liao, K. -D. Tsuei, G. Panaccione, F. Offi, G. Monaco, N. B. Brookes, J. Minár, and L. H. Tjeng, Takegami, D., Nicolaï, L., Koethe, T. C., Kasinathan, D., Kuo, C. Y., Liao, Y. F., Tsuei, K. -D., Panaccione, G., Offi, F., Monaco, G., Brookes, N. B., Minár, J., and Tjeng, and L. H.

Abstract

Here we report on our study to quantitatively describe the intensities of the valence band hard x-ray photoemission spectra (HAXPES) of a rare earth element containing 3d transition metal oxides. Using LaCoO3 as a representative model compound, we compared the experimental data to the results of ab initio one-step photoemission band structure calculations as well as to the sum of the partial density of states of the atomic constituents weighted by their tabulated photoionization cross sections. We discovered that the semicore La 5p density of states surprisingly contributes in a significant manner to the valence band spectrum: Although the La 5p partial density of states in the valence band region is negligible compared to that of the O 2p or the Co 3d, the La 5p cross section in the hard x-ray range is found to be orders of magnitude larger than that of the other subshells. This explains the long-standing issue of why the hard x-ray valence band spectra of a rare-earth element containing materials have line shapes that are very different from those taken at lower photon energies and why they cannot be described in terms of partial density of states of the subshells usually considered for the lower photon energy spectra. We infer that the contribution of the rare-earth 5p must be taken into account and cannot be ignored.

Published

2019

25. Electronic signature of the vacancy ordering in NbO(Nb3O3).

Author

Efimenko, A. K., Hollmann, N., Hoefer, K., Weinen, J., Takegami, D., Wolff, K. K., Altendorf, S. G., Hu, Z., Rata, A. D., Komarek, A. C., Nugroho, A. A., Liao, Y. F., Tsuei, K.-D., Hsieh, H. H., Lin, H.-J., Chen, C. T., Tjeng, L. H., and Kasinathan, D.

Subjects

*DIGITAL signatures, *VACANCY condensation loops, *X-ray photoelectron spectra, *ELECTRONIC band structure, *NIOBIUM oxide

Abstract

We investigated the electronic structure of the vacancy-ordered 4d-transition-metal monoxide NbO(Nb3O3) using angle-integrated soft- and hard-x-ray photoelectron spectroscopies as well as ultraviolet angle-resolved photoelectron spectroscopy. We found that density-functional-based band-structure calculations can describe the spectral features accurately provided that self-interaction effects are taken into account. In the angle-resolved spectra we were able to identify the so-called 'vacancy' band that characterizes the ordering of the vacancies. This together with the band-structure results indicate the important role of the very large inter-Nb-4d hybridization for the formation of the ordered vacancies and the high thermal stability of the ordered structure of niobium monoxide. [ABSTRACT FROM AUTHOR]

Published

2017

26. Spectroscopic Evidence of Kondo-Induced Quasiquartet in CeRh_{2}As_{2}.

Author

Christovam DS, Ferreira-Carvalho M, Marino A, Sundermann M, Takegami D, Melendez-Sans A, Tsuei KD, Hu Z, Rößler S, Valvidares M, Haverkort MW, Liu Y, Bauer ED, Tjeng LH, Zwicknagl G, and Severing A

Abstract

CeRh_{2}As_{2} is a new multiphase superconductor with strong suggestions for an additional itinerant multipolar ordered phase. The modeling of the low-temperature properties of this heavy-fermion compound requires a quartet Ce^{3+} crystal-field ground state. Here, we provide the evidence for the formation of such a quartet state using x-ray spectroscopy. Core-level photoelectron and x-ray absorption spectroscopy confirm the presence of Kondo hybridization in CeRh_{2}As_{2}. The temperature dependence of the linear dichroism unambiguously reveals the impact of Kondo physics for coupling the Kramer's doublets into an effective quasiquartet. Nonresonant inelastic x-ray scattering data find that the |Γ_{7}^{-}⟩ state with its lobes along the 110 direction of the tetragonal structure (xy orientation) contributes most to the multiorbital ground state of CeRh_{2}As_{2}.

Published

2024

27. Al-Pt intermetallic compounds: HAXPES study.

Author

Antonyshyn I, Sichevych O, Burkhardt U, Barrios Jiménez AM, Melendez-Sans A, Liao YF, Tsuei KD, Kasinathan D, Takegami D, and Ormeci A

Abstract

Intermetallic compounds in the Al-Pt system were systematically studied via hard X-ray photoelectron spectroscopy, focusing on the positions of Pt 4f and Al 2s core levels and valence band features. On one hand, with increasing Al content, the Pt 4f core levels shift towards higher binding energies (BE), revealing the influence of the atomic interactions (chemical bonding) on the electronic state of Pt. On the other hand, the charge transfer from Al to Pt increases with increasing Al content in Al-Pt compounds. These two facts cannot be combined using the standard "chemical shift" approach. Computational analysis reveals that higher negative effective charges of Pt atoms are accompanied by reduced occupancy of Pt 5d orbitals, leading to the limited availability of these electrons for the screening of the 4f core hole and this in turn explains the experimentally observed shift of 4f core levels to higher BE.

Published

2023

28. From antiferromagnetic and hidden order to Pauli paramagnetism in U M 2 Si 2 compounds with 5 f electron duality.

Author

Amorese A, Sundermann M, Leedahl B, Marino A, Takegami D, Gretarsson H, Gloskovskii A, Schlueter C, Haverkort MW, Huang Y, Szlawska M, Kaczorowski D, Ran S, Maple MB, Bauer ED, Leithe-Jasper A, Hansmann P, Thalmeier P, Tjeng LH, and Severing A

Abstract

Using inelastic X-ray scattering beyond the dipole limit and hard X-ray photoelectron spectroscopy we establish the dual nature of the U [Formula: see text] electrons in U[Formula: see text] (M = Pd, Ni, Ru, Fe), regardless of their degree of delocalization. We have observed that the compounds have in common a local atomic-like state that is well described by the U [Formula: see text] configuration with the [Formula: see text] and [Formula: see text] quasi-doublet symmetry. The amount of the U 5[Formula: see text] configuration, however, varies considerably across the U[Formula: see text] series, indicating an increase of U 5f itineracy in going from M = Pd to Ni to Ru and to the Fe compound. The identified electronic states explain the formation of the very large ordered magnetic moments in [Formula: see text] and [Formula: see text], the availability of orbital degrees of freedom needed for the hidden order in [Formula: see text] to occur, as well as the appearance of Pauli paramagnetism in [Formula: see text] A unified and systematic picture of the U[Formula: see text] compounds may now be drawn, thereby providing suggestions for additional experiments to induce hidden order and/or superconductivity in U compounds with the tetragonal body-centered [Formula: see text] structure., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)

Published

2020

29. Interplay of Atomic Interactions in the Intermetallic Semiconductor Be 5 Pt.

Author

Amon A, Svanidze E, Ormeci A, König M, Kasinathan D, Takegami D, Prots Y, Liao YF, Tsuei KD, Tjeng LH, Leithe-Jasper A, and Grin Y

Abstract

Semiconducting substances form one of the most important families of functional materials. However, semiconductors containing only metals are very rare. The chemical mechanisms behind their ground-state properties are only partially understood. Our investigations have rather unexpectedly revealed the semiconducting behaviour (band gap of 190 meV) for the intermetallic compound Be 5 Pt formed at a very low valence-electron count. Quantum-chemical analysis shows strong charge transfer from Be to Pt and reveals a three-dimensional entity of vertex-condensed empty Be 4 tetrahedrons with multi-atomic cluster bonds interpenetrated by the framework of Pt-filled vertex-condensed Be 4 tetrahedrons with two-atomic polar Be-Pt bonds. The combination of strong Coulomb interactions with relativistic effects results in a band gap., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019