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6nm Au monolayer (TEM, colorized) 540kb © H. Jaeger, University of Chicago (2006)
6nm Au monolayer between in-plane Cr electrodes (TEM), 254 KB © Thu Tran & H. Jaeger, University of Chicago (2003)
optical micrograph of (almost) dried Au monolayer on 3mm x 4mm silicon nitride substrate
quasi two-dimensional mustard seed avalanche (colorized photograph) 383 KB, © H. Jaeger & S. Nagel, University of Chicago (1996)
MRI of shearbanding after a single vertical shake, using spin-tagging technique; 117KB © J. Knight, H. Jaeger & S. Nagel, University of Chicago (1996)
MRI of size spearation in vertically shaken granular material. Large particle is glass, background consists of alternating layers of mustard (light) and rajagara (dark) seeds. Convection profile (= up in middle, down along walls) visible through deformation of the layers. Initial position of the large :"intruder" was on top of the lowest dark band...thus it rises faster than the background material. 469KB © M. Möbius, S. Nagel & H. Jaeger, University of Chicago (2005)
same as above but initial situation, before shaking © M. Möbius, S. Nagel & H. Jaeger, University of Chicago (2005)
MRI of poppy seeds in small beaker (vertical cross-section through middle of jar; side walls have layer of seed glued to them) 93KB © J. Knight, H. Jaeger & S. Nagel, University of Chicago (1996)
MRI of old (= dry and thus appearing less dark) coffee beans surrounded by coffee grounds (4 vertical slices) 258KB © J. Knight, H. Jaeger & S. Nagel, University of Chicago (1996)
Impact of aGranular Jet: Emergence of a Liquid with Zero Surface Tension © Jaeger/Nagel Group
force transmission through granular packings (force imprint at the bottom of a crystalline pack resulting from an applied point force at the top) © Nathan Mueggenburg, S. Nagel & H. Jaeger, University of Chicago (2002)
Tightly Packed Molecules Lend Unexpected Strength to Nanothin Sheet of Material © Klara Mueggenburg, H Jaeger University of Chicago (2007)
