![]() More details on scientific applications under Big Sur are here We expect that these final remaining issues will be addressed in the next CSD software release. The Aromatics Analyser component in the CSD-Materials menu of Mercury does not work on M1 Apple silicon based macs.The POV-Ray integration in Mercury for high-resolution graphics generation does not work on M1 Apple silicon based macs.At this point we are aware of just two specific known issues for the newer silicon hardware machines: We are pleased to report that the newly available 2020.3.1 CSD Release (only available on macOS) is fully supported on macOS Big Sur at point of release, both for Intel-based macs, as well as the newer M1 Apple silicon based macs. King: Acta Mater., 2016, vol. 108, pp. 36–45.The full CSD software portfolio, including Mercury, ConQuest, Mogul, GOLD, CSD-CrossMiner, the CSD Python API and other components, has now been upgraded and tested for compatibility with Big Sur. Anderson, Alexander Rubenchik, and Wayne E. Hiroshi Nakamura, Yousuke Kawahito, Koji Nishimoto, and Seiji Katayama: J. J A Venables, G D T Spiller, and M Hanbucken: Reports Prog. Porter DA, Easterling KE, Sherif MY: Phase Transformations in Metals and Alloys, 3rd edn. Ibach: Physics of Surfaces and Interfaces, 2006. Mao X, Oh KH, Kang SH, Kim TK, Jang J: Acta Mater., 2015, vol. 89, pp. 141–52.Īshcroft NW, Mermin ND: Solid State Physics, 1st edn. Oxford Instruments: CHANNEL 5 User Manual, 2007. Sci., 2015, 50: pp. 2726–2734.ĭabkowska HA, Dabkowski AB: Springer Handbook of Crystal Growth. Mater., 2014, vol. 445, pp. 291–97.Īguiar JA, Anderoglu O, Choudhury S, Baldwin JK, Misra A, Uberuaga BP: J. Samrat Choudhury, Dane Morgan, and Blas Pedro Uberuaga: Sci. ![]() Stan T, Wu Y, Odette GR, Sickafus KE, Dabkowska HA, Gaulin BD: Metall. Yang L, Jiang Y, Odette GR, Yamamoto T, Liu Z, Liu Y: J. ![]() Yang L, Jiang Y, Odette GR, Zhou W, Liu Z, Liu Y: Acta Mater., 2013, vol. 61, pp. 7260–70. Miao Y, Mo K, Cui B, Chen W-Y, Miller MK, Powers KA, Mccreary V, Gross D, Almer J, Robertson IM, Stubbins JF: Mater. Yuan Wu, Jim Ciston, Stephan Kräemer, Nathan Bailey, G. Yamamoto: The Effects of Helium in Irradiated Structural Alloys, 1st ed., Elsevier Inc., Amsterdam, 2012.Ī. These observations are important for the development of first principles models of metal-oxide interfaces, and the bilayers themselves will be used to observe the He partitioning between the Fe, YTO, and the corresponding interface. HRTEM studies show clean, semicoherent interfaces with misfit dislocation spacings of 0.7 and 1.4 nm, respectively. ![]() To complement studies of embedded NOs, mesoscopic-scale metal-oxide interfaces were fabricated by electron beam deposition of Fe films on YTO and 〈100〉Fe\\〈110〉YTO. Nanostructured Ferritic Alloys, a variant of oxide dispersion strengthened steels, contain a high density of ≈2.5 nm Y-Ti-O nano-oxides (NOs) that provide remarkable irradiation tolerance, enhance recombination of vacancies and self-interstitial irradiation defects, and trap He in fine-scale bubbles at their interfaces. ![]()
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