like I've said.
Most of what Team Google spent money on is contemporary gas thin films co dep work. Like the patents.
Period
Nothing like wet cell electrolysis.
Rossi is off topic and irrelevant to this discussion.
Misled?
like I've said.
Most of what Team Google spent money on is contemporary gas thin films co dep work. Like the patents.
Period
Nothing like wet cell electrolysis.
Rossi is off topic and irrelevant to this discussion.
Misled?
could have pointed at NASA and SPAWAR and used the history of the experiments to bolster their own claim
Yes... In their similar patents.
Exactly!
I agree.
DCVC hires Rachel Slaybaugh. My guess: this is MT building out his team. An interesting hire.
Twitter announcement:
Bio:
Gregory Byron Goble - so its not over for TG - not when the DCVC hires such an eminent researcher as Rachel Slaybaugh with a clear background in conventional nuclear engineering. Probably just a smoke-screen to put off competitors in the cold-fusion field.
Probably just a smoke-screen to put off competitors in the cold-fusion field.
Do you really think so? Or are you using humorous dialogue known as sarcasm?
On a different note...
CMNS research may lead to a better method i.e. Hot and Cold fusion as in NASA LCF.
CONSIDER
If hot spots in cold fusion are too high.
If hot fusion energetics are part of the nano environment.
If pressures reach 30,000 atmospheres in nano cavities of gas within the lattice structure.
Therefore cold fusion is not just low energy nuclear reactions.
ALSO
Many leading cold fusion researchers have a...
background in conventional nuclear engineering.
All branches of atomic physics contribute to our understanding of CMNS and understanding of CMNS phenomena improves our understanding in all branches of atomic physics. High energy physicists are welcome on cold fusion research teams and could have embraced the findings of PF from the beginning... no?
All fall under the same umbrella.
The study of the atom.
REMEMBER
Quote
The Cold Fusion research of Fleischmann and Pons was an anomaly in and of itself.
Two electrochemists, while having a bit of fun with the maximum loading of hydrogen into palladium in an electrolytic cell, ventured into a realm of subatomic phenomenon. No one had been there before in quite this way.
They hazarded to say it was nuclear, and got blasted.
These two electrochemists had no assistance from other branches of science in trying to figure it out.
Nobody came to their assistance. In fact, those who should have joined in this scientific quest, ridiculed the pair as charlatans.
Instead of helping out these two lone electrochemists with a scientific dilemma, leaders in the nuclear scientific community of the U.S. government-funded Department of Energy (DOE) labs ridiculed them to no end.
This left the two fellows to fend for themselves while being kicked out of the tribe, so to speak.
LENR: The Debutante at the Ball – COLD FUSION NOW!
Cutting edge experimental science requires patience, honest sharing of data, and evaluation for a continued improvement of the experimenters’ ability to enter into an unknown realm; which is to actually observe and record aspects of a difficult to create phenomenon and thereby test theory.
In this manner, our understanding within the unknown realm grows.
I publish. You review after working it a bit. Always improving experiments.
Together with theorists, we collect data, analyze and implement sound suggestions, always moving forward, advancing the science.
Open collaboration quickens this difficult quest into the unknown.
Open and enthusiastic collaboration by all branches of the scientific community into the query of the unknown is the basis of good science and is essential for the birth of a new science.
End quotes
"Nuclear Excitation by Muon Capture"
22 Feb 2022
"Nuclear excitation by electron capture in excited ions"
October 13, 2021
... Thus, this work heralds the possibility of
a re-evaluation of the isotopes prematurely disregarded
and those already in use in out-of equilibrium scenarios.
These findings could open a new route for an externally-
controlled nuclear excitation by providing resonant elec-
trons with engineered wavefunctions, thus selecting the
promising channels for the on-demand isomer depletion.
"Dynamical control of nuclear isomer depletion via electron vortex beams"
Jul 26, 2021
THIS art of LLNL is at Team Google’s fingertips. Might they be taking advantage of these? This 2016 review reads better than today's one,
Understanding Materials at the Nano Scale