This is basically just the blogification of some social media posts I’ve written, since it occurred to me some web-searchers might find these photos also interesting! Caption accuracy is not guaranteed, click the photos to make them larger. If you don’t know FRIB, it is basically a $730 million bump-out of the National Superconducting Cyclotron Laboratory (NSCL) here in East Lansing, Michigan, that will enable them to run experiments much faster… it is also a linear accelerator rather than a cyclotron. The facility is a little over half-done. And now, some photos.
Here we are about to go on the tour.
Most of the folks with us were cyclotron operators – that is, they run the show at the NSCL. It was fun overhearing their conversations (especially about how they were going to fix stuff that breaks in the new setup!).
Place started to feel like a bunker once you headed underground, I know where I’m going once the zombies come.
Here is the main beamline tunnel, 35 feet below grade and about 500 feet long, which the beamline will travel through in a sort of paperclip pattern. It was nice and cool down there. The facility electrical connection is for 25 MW, more than Michigan State University’s powerplant can provide, with a 4 MW backup for cryo systems. The walls down here are 3 feet thick, the floor 4.5 feet, the ceiling 3.5 feet.
Just another photo of the tunnel, the long pipe running down the middle will carry cryo fluids.
This is where they’re going to lower the Stargate into the tunnel to travel to other planets. They’ll never admit it, of course. (Oh… you’re all Stargate fans.)
Near the target areas there was a special high-density concrete, cost $1600 per cubic yard, so high in iron it would attract a magnet (as our tour guide demonstrated).
I want to say this was a cooling control room, but note especially the renderings on the wall – our tour guide mentioned that 300 draftsmen worked on the project.
Lots of 3000 pound, lead-lined doors about.
I can’t remember what this room was for, but here is Bec looking professional.
The squares will eventually be leaded-glass windows looking into the target areas.
Final photo – and this photo doesn’t really do justice to the scale of the space. The wall on the left is 7.5 feet thick (“because we have neighbors on that side”). The facility bottoms-out about 60 feet below grade with some water storage tanks, above that is the beam dump (the last place the beam goes), and above that are the targets themselves.