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Quantitative Neutron Dark-Field Imaging of Milk: A Feasibility Study

Youngju Kim, Jacopo Valsecchi, Ohsung Oh, Jong-Yul Kim, Seung Wook Lee, François Boué, Évelyne Lutton, Matteo Busi, Christopher J. Garvey, Markus Ströbl

2022Applied Sciences14 citationsDOIOpen Access PDF

Abstract

Scattering studies of milk and milk products, which are highly relevant food products on the global market, are often utilized and reported in literature to investigate and understand the subtle microscopic structural differences between dairy samples. These structural features determine the physical properties and ultimately the texture of milk products and, thus, also influence the consumer’s experience. Small-angle neutron scattering is a prominent example, which enables observations of length scales, which convey proteins and fat globules in food-grade milk. In addition, deuteration enables contrast variations between the constituents of dairy products. In this study, we investigate the potential of probing small-angle neutron scattering from milk samples through quantitative neutron dark-field imaging using grating interferometry, to establish the feasibility of studying, in particular, fat globules and milk gel structures with this spatially resolved scattering technique.

Topics & Concepts

Neutron scatteringGlobules of fatSmall-angle neutron scatteringScatteringNeutronMaterials scienceMilk fatOpticsPhysicsNuclear physicsAbsorption (acoustics)Composite materialNuclear Physics and ApplicationsHigh-pressure geophysics and materialsNMR spectroscopy and applications