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• W2949946196 abstract "The novel properties of materials produced using nanoscale manufacturing processes often arise from interactions across interfaces between dissimilar materials. Thus, to characterize the structure and magnetism of nanoscale materials demands tools with interface specificity. Neutron scattering has long been known to provide unique and quantitative information about nuclear and magnetic structures of bulk materials. Moreover, the specialty techniques of polarized neutron reflectometry and small angle neutron scattering (SANS) with polarized neutron beams and polarization analysis, are ideally and often uniquely suited to studies of nanostructured magnetic materials. Since neutron scattering is a weakly interacting probe, it gives quantifiable and easily-interpreted information on properties of statistically representative quantities of bulk, thin film and interfacial materials. In addition, neutron scattering can provide information to complement that obtained with bulk probes (magnetization, Kerr effect) or surface measurements obtained with scanning probe microscopy or resonant soft x-ray scattering. The straightforward interpretation and the simultaneous availability of structural information, make neutron scattering the technique of choice for the structural and physical characterization of many novel materials, especially those with buried interfaces, ones allowing for isotopic substitutions to decorate buried interfaces, or cases where the magnetic response to an external stimulus can be measured. We describe recent applications of neutron scattering to important thin film materials systems and future opportunities. Unquestionably, neutron scattering has played a decisive role in the development and study of new emergent phenomena. We argue with the advent of new techniques in neutron scattering and sample environment, neutron scattering's role in such studies will become even more dominant. In particular, neutron scattering will clarify and distinguish between intrinsic vs. extrinsic origins of unusual behavior which invariably plague novel materials. Key to realizing these opportunities will be the development of sample environment capabilities especially tailored to test the origins of novel phenomena, and techniques to collect, analyze and correlate neutron event detection with time dependent perturbations to the sample's environment." @default.
• W2949946196 created "2019-06-27" @default.
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• W2949946196 date "2014-01-01" @default.
• W2949946196 modified "2023-10-18" @default.
• W2949946196 title "Neutron scattering—The key characterization tool for nanostructured magnetic materials" @default.
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• W2949946196 doi "https://doi.org/10.1016/j.jmmm.2013.09.028" @default.
• W2949946196 hasPublicationYear "2014" @default.
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