Great synopsis... thanks.
I'm fascinated at how long we've been "on the cusp" of "lighting up" a
micro-star in the laboratory.
My first awareness was in the early 70s when a Radio Engineer I worked
with had just come from the early MFE Livermore efforts to my tiny
hometown AM RAdio station... He described what they were up to as I was
taking my first physics course (Junior in HS)... and thinking about the
implications both for science (as little I knew it) and society
(cheap/ubiquitous energy). Working at LANL for 3 decades (starting
with the high energy Proton Storage Ring) put me close to lots of this
as an "educated layman".
I can't say "nothing's changed" but it is mind boggling how long one can
"hang on the cusp" of something. Or how quickly we can go from burning
coal to make steam to drive mechanical devices to replace animal and
human (and water and wind) labor to lighting up tiny stars for the same
purpose.
- Steve
"some days just drag on, but the years they just fly by"
Awesome. Thanks. I'm still trying to catch up with the QC Wormhole
kerfuffle. Who knew Quanta was so click baity?
What is "DT"?
On 12/13/22 09:02, Marcus Daniels wrote:
In case no one wanted to get up at 7:00am to watch DOE administrators
talk:
1. Controlling the laser in space and time was important for
maintaining symmetry. Timing precision of 25e-12 secs and laser
spatial precision of 5e-12 meter were needed. This was thought to be
the main explanation for the achievement.
2. 8% more power on the laser this time
3. x-ray tomography is used to find flaws in the capsules. Developing
software to do the counting.
4. They have ongoing efforts to study the fabrication systems and
their components (done in Germany) to find idiosyncrasies of each.
5. Laser technology improvements since NIF was built which are 20%
more efficient.
6. Target cost is from labor, and it takes 7 months each
7. 4% of DT is burned in a shot
8. Machine learning ties together radiation hydrodynamics and
experimental data. (It sounded preliminary.)
9. The (successful) capsule had more defects than previous
experiments. However, previous experiments did show benefits from
capsule quality.
10. 15% of experiments are indirect drive of this kind, 15% of
experiments are other approaches to ignition. The rest are weapons
and materials characterization.
11. Anomalous laser directional control were problems in the summer
runs. Fixed that.
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