| 3 | | || Gas channels || IMVT || Valves in liquid form[[BR]][[BR]]metastable gas channels,[[BR]][[BR]] very fast switching[[BR]][[BR]]between states || 10 um || ~100 us || radiography || gas flow || temporal anisotropic[[BR]][[BR]]sampling, multiple ROIs || |
| 4 | | || Liquid jets || FZD || gas bubble produced[[BR]][[BR]]in liquid-liquid jets || ~5 - 10 um || 100 - 1000 us || radiography || liquid jet velocity || optical flow for[[BR]][[BR]]velocity analysis || |
| 5 | | || Insect functional[[BR]][[BR]]morphology studies || SMNK || || 1 - 10 um || 100 us - hours || radiography,[[BR]][[BR]]tomography,[[BR]][[BR]]full field[[BR]][[BR]]spectroscopy || temperature[[BR]][[BR]](movement velocity),[[BR]][[BR]]atmosphere[[BR]][[BR]](tracheal respiration) || killer application for UFO[[BR]][[BR]]NLM radiography[[BR]][[BR]]prefiltering,[[BR]][[BR]]3D optical flow,[[BR]][[BR]]highest speed radiography /[[BR]][[BR]]tomography, high throughput,[[BR]][[BR]] ... || |
| 6 | | || Si wafer heating || University of Freiburg || Indented Wafer gets[[BR]][[BR]]heated, beam moves[[BR]][[BR]]due to expansion of[[BR]][[BR]]the sample holder[[BR]][[BR]]and other effects || 2 - 3 um || 0.5 - 1 s || topography || camera position || demonstrator application,[[BR]][[BR]]fast feedback loop for[[BR]][[BR]]camera repositioning || |
| 7 | | || Contrast optimisation || ISS || maximze contrast by[[BR]][[BR]]changing sample- detector[[BR]][[BR]] distance and beam[[BR]][[BR]]conditions, autofocus || all || not critical || radiography || energy, distance,[[BR]][[BR]]bandwidth, focus || data driven contrast[[BR]][[BR]]optimisation, efficient[[BR]][[BR]]use of beam time || |
| 8 | | || Celitement || ITC || drying behaviour of cement || 1 um || minutes, hours, months || tomography || temperature? || outermost feedback loop,[[BR]][[BR]]product optimization || |
| | 3 | || Gas channels || IMVT || Valves in liquid form[[BR]]metastable gas channels,[[BR]] very fast switching[[BR]]between states || 10 um || ~100 us || radiography || gas flow || temporal anisotropic[[BR]]sampling, multiple ROIs || |
| | 4 | || Liquid jets || FZD || gas bubble produced[[BR]]in liquid-liquid jets || ~5 - 10 um || 100 - 1000 us || radiography || liquid jet velocity || optical flow for[[BR]]velocity analysis || |
| | 5 | || Insect functional[[BR]][[BR]]morphology studies || SMNK || || 1 - 10 um || 100 us - hours || radiography,[[BR]]tomography,[[BR]]full field[[BR]]spectroscopy || temperature[[BR]](movement velocity),[[BR]][[BR]]atmosphere[[BR]](tracheal respiration) || killer application for UFO[[BR]]NLM radiography[[BR]]prefiltering,[[BR]]3D optical flow,[[BR]]highest speed radiography /[[BR]]tomography, high throughput,[[BR]] ... || |
| | 6 | || Si wafer heating || University of Freiburg || Indented Wafer gets[[BR]]heated, beam moves[[BR]]due to expansion of[[BR]]the sample holder[[BR]]and other effects || 2 - 3 um || 0.5 - 1 s || topography || camera position || demonstrator application,[[BR]][[BR]]fast feedback loop for[[BR]][[BR]]camera repositioning || |
| | 7 | || Contrast optimisation || ISS || maximze contrast by[[BR]]changing sample- detector[[BR]] distance and beam[[BR]]conditions, autofocus || all || not critical || radiography || energy, distance,[[BR]]bandwidth, focus || data driven contrast[[BR]]optimisation, efficient[[BR]]use of beam time || |
| | 8 | || Celitement || ITC || drying behaviour of cement || 1 um || minutes, hours, months || tomography || temperature? || outermost feedback loop,[[BR]]product optimization || |
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