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Your search keyword '"Taniuchi, Toshiyuki"' showing total 25 results
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25 results on '"Taniuchi, Toshiyuki"'

1. Coherence Length of Electronic Nematicity in Iron-Based Superconductors

Author

Kageyama, Yoichi, Onishi, Asato, Bareille, Cédric, Ishida, Kousuke, Mizukami, Yuta, Ishida, Shigeyuki, Eisaki, Hiroshi, Hashimoto, Kenichiro, Taniuchi, Toshiyuki, Shin, Shik, Kontani, Hiroshi, and Shibauchi, Takasada

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

Recent developments in laser-excited photoemission electron microscopy (laser-PEEM) advance the visualization of electronic nematicity and nematic domain structures in iron-based superconductors. In FeSe and BaFe$_2$(As$_{0.87}$P$_{0.13}$)$_2$ superconductors, it has been reported that the thickness of the electronic nematic domain walls is unexpectedly long, leading to the formation of mesoscopic nematicity wave [T. Shimojima $\textit{et al.}$, Science $\textbf{373}$ (2021) 1122]. This finding demonstrates that the nematic coherence length $\xi_{\rm nem}$ can be decoupled from the lattice domain wall. Here, we report that the electronic domain wall thickness shows a distinct variation in related materials: it is similarly long in FeSe$_{0.9}$S$_{0.1}$ whereas it is much shorter in undoped BaFe$_2$As$_2$. We find a correlation between the thick domain walls and the non-Fermi liquid properties of normal-state resistivity above the nematic transition temperature. This suggests that the nematic coherence length can be enhanced by underlying spin-orbital fluctuations responsible for the anomalous transport properties., Comment: 5 pages, 3 figures

Published
2024
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2. Non-Destructive Imaging of Breakdown Process in Ferroelectric Capacitors Using \textit{In-situ} Laser-Based Photoemission Electron Microscopy

Author

Fujiwara, Hirokazu, Itoya, Yuki, Kobayashi, Masaharu, Bareille, Cédric, Shin, Shik, and Taniuchi, Toshiyuki

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science
Abstract

HfO$_2$-based ferroelectrics are one of the most actively developed functional materials for memory devices. However, in HfO$_2$-based ferroelectric devices, dielectric breakdown is a main failure mechanism during repeated polarization switching. Elucidation of the breakdown process may broaden the scope of applications for the ferroelectric HfO$_2$. Here, we report direct observations of a breakdown process in HfO$_2$-based ferroelectric capacitors, by \textit{in-situ} laser-based photoemission electron microscopy (laser-PEEM). We have not only clearly visualized the hard dielectric breakdown (HDB) spot, but also observed the regions responsible for the soft dielectric breakdown (SDB) which is a precursor phenomenon to HDB. It was found that the low-resistance region formed after SDB is wider than the conduction path formed after HDB. Furthermore, our spectromicroscopic analysis revealed that the photoelectron spectrum after SDB shows an enhancement in intensity without spectral-shape modulation, interpreted that the initially existed defects are increased. In the HDB spot, however, an additional shoulder structure was observed. These results provide spectroscopic evidence that the electronic states responsible for the conduction path after SDB are different from those after HDB. Through this work, we propose this microscopic approach as a versatile tool for studying buried materials as they are, accelerating the development of material engineering for advanced electronic devices., Comment: 6 pages

Published
2023
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5. Time-resolved photoemission spectroscopy in graphite

Author

Togashi, Tadashi, Yamamoto, Kazuya, Ishida, Yukiaki, Tnanaka, Masashi, Taniuchi, Toshiyuki, Shimoyamada, Atsushi, Kiss, Takayuki, Ishizaka, Kyoko, Chainani, Ashish, Takata, Yasitaka, Nakajima, Makoto, Suemoto, Tohru, Ishikawa, Tetsuya, Shin, Shik, Corkum, Paul, editor, Silvestri, Sandro, editor, Nelson, Keith A., editor, Riedle, Eberhard, editor, and Schoenlein, Robert W., editor

Published
2009
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10. High throughput observation of latent images on resist using laser-based photoemission electron microscopy

Author

Fujiwara, Hirokazu, Bareille, Cédric, Okawa, Mario, Shin, Shik, and Taniuchi, Toshiyuki

Abstract

The rapid evolution of lithography technology necessitates faster pattern inspection methods. Here, we propose the use of laser-based photoemission electron microscopy (laser-PEEM) for high-throughput observation of latent images on an electron beam resist. We revealed that this technique can visualize latent images as chemical contrasts, and estimated the throughput millions of times higher than those of an atomic force microscope. Moreover, we estimated that throughput tens of thousands of times higher than a single-beam scanning electron microscope is achievable for post-developed resist patterns. This breakthrough highlights the potential of laser-PEEM to revolutionize a high-throughput lithographic pattern inspection in semiconductor manufacturing.

Published
2024
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13. Dielectric breakdown behavior of ferroelectric HfO2capacitors by constant voltage stress studied by in situ laser-based photoemission electron microscopy

Author

Itoya, Yuki, Fujiwara, Hirokazu, Bareille, Cédric, Shin, Shik, Taniuchi, Toshiyuki, and Kobayashi, Masaharu

Abstract

In situ laser-based photoemission electron microscopy observations with time-dependent dielectric breakdown measurements of TiN/Hf0.5Zr0.5O2(HZO)/TiN ferroelectric capacitors were performed to reveal the dielectric breakdown (DB) mechanism. We succeeded in visualizing the hard DB spots through the top electrode. We found that capacitors with short- and long-lifetime distributions were broken down near and far from the edge of the capacitors, respectively. This indicates that the DB is either topography-dependent or film-quality-dependent. This work demonstrates an effective method of detecting DB in a non-destructive manner to provide an insight for achieving higher endurance HfO2-based ferroelectric capacitors.

Published
2024
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15. Selective Formation of Zigzag Edges in Graphene Cracks

Author

Fujihara, Miho, primary, Inoue, Ryosuke, additional, Kurita, Rei, additional, Taniuchi, Toshiyuki, additional, Motoyui, Yoshihito, additional, Shin, Shik, additional, Komori, Fumio, additional, Maniwa, Yutaka, additional, Shinohara, Hisanori, additional, and Miyata, Yasumitsu, additional

Published
2015
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19. Thickness dependence of magnetic domain formation in La0.6Sr0.4MnO3 epitaxial thin films studied by XMCD–PEEM

Author

Taniuchi, Toshiyuki, primary, Yasuhara, Ryutaro, additional, Kumigashira, Hiroshi, additional, Kubota, Masato, additional, Okazaki, Hiroyuki, additional, Wakita, Takanori, additional, Yokoya, Takanori, additional, Ono, Kanta, additional, Oshima, Masaharu, additional, Lippmaa, Mikk, additional, Kawasaki, Masashi, additional, and Koinuma, Hideomi, additional

Published
2007
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20. Hard X-ray Photoelectron Emission Microscopy (HXPEEM)

Author

ONO, Kanta, primary, TANIUCHI, Toshiyuki, additional, OSHIMA, Masaharu, additional, WAKITA, Takanori, additional, KOTSUGI, Masato, additional, SUZUKI, Motohiro, additional, KAWAMURA, Naomi, additional, TAKAGAKI, Masafumi, additional, and AKINAGA, Hiro, additional

Published
2007
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21. Hard X-ray Photoelectron Emission Microscopy as Tool for Studying Buried Layers

Author

Wakita, Takanori, primary, Taniuchi, Toshiyuki, additional, Ono, Kanta, additional, Suzuki, Motohiro, additional, Kawamura, Naomi, additional, Takagaki, Masafumi, additional, Miyagawa, Hayato, additional, Guo, FangZhun, additional, Nakamura, Tetsuya, additional, Muro, Takayuki, additional, Akinaga, Hiroyuki, additional, Yokoya, Takayoshi, additional, Oshima, Masaharu, additional, and Kobayashi, Keisuke, additional

Published
2006
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23. Thickness dependence of magnetic domain formation in La0.6Sr0.4MnO3 epitaxial thin films studied by XMCD–PEEM

Author

Taniuchi, Toshiyuki, Yasuhara, Ryutaro, Kumigashira, Hiroshi, Kubota, Masato, Okazaki, Hiroyuki, Wakita, Takanori, Yokoya, Takanori, Ono, Kanta, Oshima, Masaharu, Lippmaa, Mikk, Kawasaki, Masashi, and Koinuma, Hideomi

Subjects
*THIN films, *FERROMAGNETIC materials, *MAGNETIC domain, *FERROELECTRICITY, *SURFACES (Technology)
Abstract

Abstract: We have used photoelectron emission microscopy (PEEM) and X-ray magnetic circular dichroism (XMCD) to study the effect of thin film thickness on the magnetic domain formation in La0.6Sr0.4MnO3 samples that were epitaxially grown on stepped SrTiO3 (001) substrates. The magnetic image exhibited a stripe structure elongated along the step direction, irrespective of film thickness, suggesting that uniaxial magnetic anisotropy induced by step-and-terrace structures plays an important role in the magnetic domain formation. Additional domains evolved gradually with increasing film thickness. In these domains, the direction of magnetization differed from the step direction due to biaxial magneto-crystalline anisotropy. The evolution of additional magnetic domains with increasing film thickness implies that a competition exists between the two anisotropies in LSMO films. [Copyright &y& Elsevier]

Published
2007
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24. X-ray nanospectroscopic characterization of a molecularly thin ferromagnetic Ti1-xCoxO2 nanosheet.

Author

Kotani, Yoshinori, Taniuchi, Toshiyuki, Osada, Minoru, Sasaki, Takayoshi, Kotsugi, Masato, Guo, F. Z., Watanabe, Yoshio, Kubota, Masato, and Ono, Kanta

Subjects
*PHOTOEMISSION, *ELECTRON emission, *ELECTRONIC structure, *SPECTRUM analysis, *ELECTRON microscopy, *PROPERTIES of matter
Abstract

We investigated the local electronic structures of a molecularly thin ferromagnetic Ti0.8Co0.2O2 nanosheet by means of x-ray nanospectroscopy with spectroscopic photoemission and low energy electron microscopy. By analyzing the Co 2p x-ray absorption and photoemission spectra, the chemical state of doped Co ions in individual Ti0.8Co0.2O2 nanosheet was found to be Co2+ low-spin state, which is consistent with previous magnetization data and first-principles calculation [M. Osada et al., Phys. Rev. B 73, 153301 (2006)]. Furthermore, we employed photoelectron emission microscopy to image the variation in chemical states in Ti0.8Co0.2O2 nanosheets with different stacking structures and clarified the identical Co2+ low-spin state in monolayer and overlapped cases. [ABSTRACT FROM AUTHOR]

Published
2008
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25. Novel Magnetic Domain Structure in Iron Meteorite Induced by the Presence of L10-FeNi.

Author

Kotsugi, Masato, Mitsumata, Chiharu, Maruyama, Hiroshi, Wakita, Takanori, Taniuchi, Toshiyuki, Ono, Kanta, Suzuki, Motohiro, Kawamura, Naomi, Ishimatsu, Naoki, Oshima, Masaharu, Watanabe, Yoshio, and Taniguchi, Masaki

Abstract

Photoelectron emission microscopy has been carried out to study the magnetic properties of iron meteorite associated with the Widmanstätten structure for the first time. A magnetic circular dichroic image reveals a unique magnetic domain structure, resulting in the “head-on” magnetic coupling over the interface between the α and γ lamellae. Such a magnetic domain structure is unfavorable in any synthetic Fe–Ni alloys. Micromagnetics simulation reasonably explains that the formation of magnetic domains is induced by the L10-type FeNi (tetrataenite) phase segregated at the boundary in the Widmanstätten structure. [ABSTRACT FROM AUTHOR]

Published
2010
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