tag:blogger.com,1999:blog-8822523990684546772.post4407860036653208713..comments2023-03-14T05:23:40.758-04:00Comments on Entropy Lives Here: Hello from Neutronworld.Rachelhttp://www.blogger.com/profile/15752385813837915948noreply@blogger.comBlogger2125tag:blogger.com,1999:blog-8822523990684546772.post-88391807473911758832008-04-28T20:32:16.628-04:002008-04-28T20:32:16.628-04:00Ok, I feel like I'm missing something. Do I u...Ok, I feel like I'm missing something. Do I understand correctly that if the neutrons are scattered the image would appear darker ( or less invisable)on the resulting picture than if the neutrons are not scattered?The Zalmanshttp://www.blogger.com/profile/04778170709099698816noreply@blogger.comtag:blogger.com,1999:blog-8822523990684546772.post-24409391644393732052008-04-30T20:55:45.117-04:002008-04-30T20:55:45.117-04:00So maybe I kind of brushed over the differences be...So maybe I kind of brushed over the differences between scattering and imaging, but you're basically right. Where it probably got confusing is that you're not really "scattering" when taking an image - it's more like a regular camera but instead of light (photons) you're using neutrons. <br><br>In both the scattering and imaging experiments, the contrast mechanism is the same. In the image, the material that interacts with the neutrons more will look darker. This material will also scatter more in a scattering experiment.Rachelhttp://www.blogger.com/profile/15752385813837915948noreply@blogger.com