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34 results on '"Gemma, Ryota"'

1. Towards establishing best practice in the analysis of hydrogen and deuterium by atom probe tomography

Author

Gault, Baptiste, Saksena, Aparna, Sauvage, Xavier, Bagot, Paul, Aota, Leonardo S., Arlt, Jonas, Belkacemi, Lisa T., Boll, Torben, Chen, Yi-Sheng, Daly, Luke, Djukic, Milos B., Douglas, James O., Duarte, Maria J., Felfer, Peter J., Forbes, Richard G., Fu, Jing, Gardner, Hazel M., Gemma, Ryota, Gerstl, Stephan S. A., Gong, Yilun, Hachet, Guillaume, Jakob, Severin, Jenkins, Benjamin M., Jones, Megan E., Khanchandani, Heena, Kontis, Paraskevas, Krämer, Mathias, Kühbach, Markus, Marceau, Ross K. W., Mayweg, David, Moore, Katie L., Nallathambi, Varatharaja, Ott, Benedict C., Poplawsky, Jonathan D, Prosa, Ty, Pundt, Astrid, Saha, Mainak, Schwarz, Tim M., Shang, Yuanyuan, Shen, Xiao, Vrellou, Maria, Yu, Yuan, Zhao, Yujun, Zhao, Huan, and Zou, Bowen

Subjects
Condensed Matter - Materials Science
Abstract

As hydrogen is touted as a key player in the decarbonization of modern society, it is critical to enable quantitative H analysis at high spatial resolution, if possible at the atomic scale. Indeed, H has a known deleterious impact on the mechanical properties (strength, ductility, toughness) of most materials that can hinder their use as part of the infrastructure of a hydrogen-based economy. Enabling H mapping, including local hydrogen concentration analyses at specific microstructural features, is essential for understanding the multiple ways that H affect the properties of materials, including for instance embrittlement mechanisms and their synergies, but also spatial mapping and quantification of hydrogen isotopes is essential to accurately predict tritium inventory of future fusion power plants, ensuring their safe and efficient operation for example. Atom probe tomography (APT) has the intrinsic capabilities for detecting hydrogen (H), and deuterium (D), and in principle the capacity for performing quantitative mapping of H within a material's microstructure. Yet the accuracy and precision of H analysis by APT remain affected by the influence of residual hydrogen from the ultra-high vacuum chamber that can obscure the signal of H from within the material, along with a complex field evaporation behavior. The present article reports the essence of discussions at a focused workshop held at the Max-Planck Institute for Sustainable Materials in April 2024. The workshop was organized to pave the way to establishing best practices in reporting APT data for the analysis of H. We first summarize the key aspects of the intricacies of H analysis by APT and propose a path for better reporting of the relevant data to support interpretation of APT-based H analysis in materials.

Published
2024

2. The impact of nanoscale compositional variation on the properties of amorphous alloys

Author

Gemma, Ryota, Baben, Moritz to, Pundt, Astrid, Kapaklis, Vassilios, and Hjörvarsson, Björgvin

Subjects
Condensed Matter - Materials Science
Abstract

The atomic distribution in amorphous FeZr alloys is found to be close to random, nevertheless, the composition can not be viewed as being homogenous at the nm-scale. The spatial variation of the local composition is identified as the root of the unusual magnetic properties in amorphous Fe$_{1-x}$Zr$_{x}$ alloys. The findings are discussed and generalised with respect to the physical properties of amorphous and crystalline materials., Comment: 7 figures

Published
2018
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5. Laser-induced reversion of $\delta^{'}$ precipitates in an Al-Li alloy: Study on temperature rise in pulsed laser atom probe

Author

Khushaim, Muna, Gemma, Ryota, and Al-Kassab, Talaat

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

The influence of tuning the laser energy during the analyses on the resulting microstructure in a specimen utilizing an ultra-fast laser assisted atom probe was demonstrated by a case study of a binary Al-Li alloy. The decomposition parameters, such as the size, number density, volume fraction and composition of $\delta^{'}$ precipitates, were carefully monitored after each analysis. A simple model was employed to estimate the corresponding specimen temperature for each value of the laser energy. The results indicated that the corresponding temperatures for the laser energy in the range of 10 to 80 pJ are located inside the miscibility gap of the binary Al-Li phase diagram and fall into the metastable equilibrium field. In addition, the corresponding temperature for a laser energy of 100 pJ was in fairly good agreement with reported range of $\delta^{'}$ solvus temperature, suggesting a result of reversion upon heating due to laser pulsing., Comment: 30 pages, 10 figures and 2 tables

Published
2015

24. Hydrogen Interaction with Defects in Nanocrystalline, Polycrystalline and Epitaxial Pd Films

Author

Čížek, Jakub, primary, Melikhova, Oksana, additional, Vlček, Marián, additional, Lukáč, František, additional, Vlach, Martin, additional, Dobron, Patrik, additional, Procházka, Ivan, additional, Anwand, Wolfgang, additional, Brauer, Gerhard, additional, Wagner, Stefan, additional, Uchida, Helmut, additional, Gemma, Ryota, additional, and Pundt, Astrid, additional

Published
2013
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28. Hydrogen-induced defects in Pd films

Author

Cizek, Jakub, primary, Prochazka, Ivan, additional, Melikhova, Oksana, additional, Vlach, Martin, additional, Zaludova, Nada, additional, Brauer, Gerhard, additional, Anwand, Wolfgang, additional, Egger, Werner, additional, Sperr, Peter, additional, Hugenschmidt, Christoph, additional, Gemma, Ryota, additional, Pundt, Astrid, additional, and Kirchheim, Reiner, additional

Published
2009
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31. Hydrogen-vacancy complexes in electron-irradiated niobium

Author

Čížek, Jakub, primary, Procházka, Ivan, additional, Daniš, Stanislav, additional, Brauer, Gerhard, additional, Anwand, Wolfgang, additional, Gemma, Ryota, additional, Nikitin, Eugen, additional, Kirchheim, Reiner, additional, Pundt, Astrid, additional, and Islamgaliev, Rinat K., additional

Published
2009
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33. Towards Establishing Best Practice in the Analysis of Hydrogen and Deuterium by Atom Probe Tomography.

Author

Gault B, Saksena A, Sauvage X, Bagot P, Aota LS, Arlt J, Belkacemi LT, Boll T, Chen YS, Daly L, Djukic MB, Douglas JO, Duarte MJ, Felfer PJ, Forbes RG, Fu J, Gardner HM, Gemma R, Gerstl SSA, Gong Y, Hachet G, Jakob S, Jenkins BM, Jones ME, Khanchandani H, Kontis P, Krämer M, Kühbach M, Marceau RKW, Mayweg D, Moore KL, Nallathambi V, Ott BC, Poplawsky JD, Prosa T, Pundt A, Saha M, Schwarz TM, Shang Y, Shen X, Vrellou M, Yu Y, Zhao Y, Zhao H, and Zou B

Abstract

As hydrogen is touted as a key player in the decarbonization of modern society, it is critical to enable quantitative hydrogen (H) analysis at high spatial resolution and, if possible, at the atomic scale. H has a known deleterious impact on the mechanical properties (strength, ductility, toughness) of most materials that can hinder their use as part of the infrastructure of a hydrogen-based economy. Enabling H mapping including local hydrogen concentration analyses at specific microstructural features is essential for understanding the multiple ways that H affect the properties of materials including embrittlement mechanisms and their synergies. In addition, spatial mapping and quantification of hydrogen isotopes is essential to accurately predict tritium inventory of future fusion power plants thus ensuring their safe and efficient operation. Atom probe tomography (APT) has the intrinsic capability to detect H and deuterium (D), and in principle the capacity for performing quantitative mapping of H within a material's microstructure. Yet, the accuracy and precision of H analysis by APT remain affected by complex field evaporation behavior and the influence of residual hydrogen from the ultrahigh vacuum chamber that can obscure the signal of H from within the material. The present article reports a summary of discussions at a focused workshop held at the Max-Planck Institute for Sustainable Materials in April 2024. The workshop was organized to pave the way to establishing best practices in reporting APT data for the analysis of H. We first summarize the key aspects of the intricacies of H analysis by APT and then propose a path for better reporting of the relevant data to support interpretation of APT-based H analysis in materials., Competing Interests: Conflict of Interest The authors declare that they have no competing interest., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Microscopy Society of America.)

Published
2024
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34. Laser-induced reversion of δ' precipitates in an Al-Li alloy: Study on temperature rise in pulsed laser atom probe.

Author

Khushaim M, Gemma R, and Al-Kassab T

Abstract

The influence of tuning the laser pulse energy during the analyses on the resulting microstructure in a specimen utilizing an ultra-fast laser assisted atom probe was demonstrated by a case study of a binary Al-Li alloy. The decomposition parameters, such as the size, number density, volume fraction, and composition of δ' precipitates, were carefully monitored after each analysis. A simple model was employed to estimate the corresponding specimen temperature for each value of the laser energy. The results indicated that the corresponding temperatures for the laser pulse energy in the range of 10 to 80 pJ are located inside the miscibility gap of the binary Al-Li phase diagram and fall into the metastable equilibrium field. In addition, the corresponding temperature for a laser pulse energy of 100 pJ was in fairly good agreement with reported range of  δ' solvus temperature, suggesting a result of reversion upon heating due to laser pulsing. Microsc. Res. Tech. 79:727-737, 2016. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published
2016
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