 So we've just won this new NSF award. We're one of only a few in the country out of a couple of hundred people who applied. And to give you an idea of the scale of that, there are 50 people and seven institutions participating in this with ASU and the LEED. What we're building here is we call an XFAL, which stands for X-Ray Free Electron Laser. We've shrunk down the very large machines to something that we can have here in the basement of biodesign. If I like to think of the CXFAL as a scalpel compared to the hammer, that's the big machines. But our dream really is to convert that into a laser, to shrink the XFALs down to a size that we can handle. And so that's our second phase where we're about to enter a significant design study to basically dot all the i's and cross all the t's so that we can upgrade from the CXLS to the CXFAL. But it takes only still pictures. And what we really want are movies. We want to see how materials change. We want to see chemical reactions as they occur or all these kinds of excitations that lead to new phenomena, like new quantum effects and materials that could really advance energy conservation and new forms of computing. And in order to do that, we need really short pulses of X-rays. With the CXLS, this first machine that we're building, the very first X-ray experiments that we'll do are in something called phase contrast medical imaging. And we think that by doing this, we can image things that you can't see with X-rays today. Things like soft tissue injuries that happen to our soldiers, brain degeneration. So anytime that there's soft tissues involved, tendons, blood vessels, plaques and blood vessels, we will be able to sensitively detect that inside a body. ASU, of course, has just yet again won the most innovative university award from US News and World Report. And this project exemplifies that can-do attitude. It starts with President Michael Crowe. Anytime you want to do something new, nobody's done it, you're not following a recipe, you have to take risks and get out there and innovate. It takes bright thinking, it takes a conservative approach, but also the willingness to take the leap and not just copy others. So that spirit is very much alive here at ASU and I think this project really exemplifies it.