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Browsing Book Chapters by Author "Avdeev, M"

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    Alkali metal cation and proton conductors: relationships between composition, crystal structure, and properties
    (Wiley, 2009-07-15) Avdeev, M; Nalbandyan, VB; Shukaev, IL
    This chapter contains sections titled: Principles of Classification, and General Comments; Crystal‐Chemistry Factors Affecting Cationic Conductivity; Crystal Structural Screening and Studies of Conduction Paths; Conductors with Large Alkali Ions; Lithium Ion Conductors; Proton Conductors; References. © 2009 Wiley‐VCH Verlag GmbH & Co. KGaA
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    Cultural heritage project at Australian Nuclear Science and Technology Organisation (ANSTO)
    (Springer Nature, 2022-01-25) Salvemini, F; White, R; Levchenko, VA; Smith, AM; Pastuovic, Z; Stopic, A; Luzin, V; Tobin, MJ; Puskar, L; Howard, DL; Davis, J; Avdeev, M; Gatenby, S; Kim, MJ; Grazzi, F; Sheedy, K; Olsen, SR; Raymond, CA; Lord, C; Richards, C; Bevitt, JJ; Popelka-Filcoff, RS; Lenehan, CE; Ives, S; Dredge, P; Yip, A; Brookhouse, MT; Austin, AG
    The Australian Nuclear Science and Technology Organization (ANSTO) is the home of Australia’s most significant landmark and national infrastructure for research. ANSTO operates one of the world’s most modern nuclear research reactors, OPAL; a comprehensive suite of neutron beam instruments; the Australian Synchrotron; the Electron Microscope Facility; and the Center for Accelerator Science. Over the years, the suite of nuclear methods available across ANSTO’s campuses has been increasingly applied to study a wide range of heritage materials. Since 2015 the strategic research project on cultural heritage was initiated in order to promote access to ANSTO’s capabilities and expertise, unique in the region, by cultural institution and researchers. This chapter offers a compendium of ANSTO nuclear capabilities most frequently applied to cultural heritage research. A series of innovative, interdisciplinary, and multi-technique studies conducted in close collaboration with Australian museums, institutions, and universities is also showcased. It includes research on dating Aboriginal Australian rock art and fingerprinting the sources of ochre pigments; rediscovering the technological knowledge in the making of early coinage and ancient weapons; virtually unwrapping the content of votive mummies from ancient Egypt; and investigating and restoring the original layer of a painting that can be explored by the museum audience in a novel type of exhibition based on an immersive, interactive, and virtual environment. © 2022 Springer Nature Switzerland AG
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    Neutron diffraction texture analysis for numismatics
    (The Royal Numismatic Society, 2020) Luzin, V; Sheedy, K; Olsen, SR; Salvemini, F; Avdeev, M
    Neutron diffraction analysis has emerged as a powerful, non-invasive, non-destructive method in the field of numismatics. In this chapter we report on some preliminary results from the Incuse Coinage Project which explores methods employed by city-states in South Italy to produce a very distinctive regional form of silver currency, incuse coinage, during the sixth and fifth centuries BC. In order to understand what makes these minting procedures unique it is necessary to obtain data from incuse as well as non-incuse coinages, and we report on studies of twelve coins from mints in different cities and from different eras. Neutron texture and phase analyses can provide an insight into the processing of the metal during the production of coinage.