I think it is safe to say that “everyone” is familiar with electron microscopy for looking at small things, but the same cannot be said for small-angle scattering. Introducing more people to the wonderful world of small-angle scattering may be one of the ways of getting more support for and interest in the technique. With this in mind, and with some contacts in the PR department, we managed to get last-minute approval to do a demonstration at the public day at NIMS…
I have worked with ResearchSEA on getting some videos out there to promote the sciences. I have been interviewing some people, condensing their stories into a minute(-ish) of Youtubey goodness. The videos are available on the new ResearchSEA website here and here. They are the first two, there will be more at a rate of about one every three weeks. As always, feel free to let me know what you think!
(just a quick post about interesting things to keep the blog alive. More interesting developments are afoot, I hope to be able to post about them shortly) I suspect that all of the readers here are familiar with the wonderful resource of fascinating talks that is TED. Yesterday, a group of people had their first meeting for setting up a TEDxTsukuba event. We are planning to hold the event early July in the center of the city we are in. It is going to be small, partly due to TEDx rules which allow only 100 people to attend. I will give another shout out about this as soon as there is a website for the event, and then I will talk about it no more (rest assured). If you are interested in helping out, please leave a comment or drop me a line!
[Ed: a new, completely rewritten version of this code can be found here, with a precompiled Windows version available at the bitbucket site courtesy of Joachim Kohlbrecher] Since entering paternity leave, I have had little time to come up with something new to post here. However, one colleague was so kind as to send me his Windows version of the live fourier transform program discussed before. His runs on his Lenovo laptop (but may be more widely applicable) and uses the Windows built-in Matlab webcam code. Framerates are markedly better than my OS X code, but memory requirements are significant and reinitialisation of the camera every few seconds generates a flash. The code is available here, with many thanks to Jakob R. Eltzholtz for making his code available. If you have suggested improvements or changes, please do not hesitate to contact Jakob and/or me.