//
sign in
Profile
by @danabra.mov
Profile
by @dansshadow.bsky.social
Profile
by @jimpick.com
AviHandle
by @danabra.mov
AviHandle
by @dansshadow.bsky.social
AviHandle
by @katherine.computer
EventsList
by @katherine.computer
ProfileHeader
by @dansshadow.bsky.social
ProfileHeader
by @danabra.mov
ProfileMedia
by @danabra.mov
ProfilePlays
by @danabra.mov
ProfilePosts
by @danabra.mov
ProfilePosts
by @dansshadow.bsky.social
ProfileReplies
by @danabra.mov
Record
by @atsui.org
Skircle
by @danabra.mov
StreamPlacePlaylist
by @katherine.computer
+ new component
ProfilePosts
Loading...
Indeed, the papers don't confirm the ARC fusion power plant design is done and fully proved out — but they do confirm the hardest part, the physics, is solid. That's the foundation for the whole enterprise.
9d
Here's a blog post I wrote about fusion diagnostics, including some interesting historical anecdotes showing successes and flops. 🧵 2/3 blog.cfs.energy/diagnostics-... #FusionEnergy
10d
This week, at the 26th High Temperature Plasma Diagnostics (HTPD) conference, researchers from Commonwealth Fusion Systems (CFS) are showing our newest work on diagnostics for SPARC, the machine we’re...
blog.cfs.energy
Diagnostics: How to know your fusion machine is working — or what went wrong | The Tokamak Times
In fusion energy, everything starts with the plasma physics. These five papers lay the foundation for our ARC fusion power plant. 58 authors, 226 pages, and the physics checks out. #FusionEnergy
15d
We have scads of experts at @cfs.energy, but strong plasma physics is the first challenge we have to tackle to build a functioning fusion power plant. Now we've taken our next physics step by publishing 5 peer-reviewed papers on the ARC fusion power plant's physics basis. #PowerMoves #FusionEnergy
15d