Tom,Th has occurred that is 10
4
times faster
I presume throughout the document you quoted, statements as above are really trying to say:
Th has occured 10^4, i.e., 1E4 times faster?
Nasa testing the Widom-Larsen LENR theory.
Yes, sorry for bad pasting.KitemanSA wrote:Tom,Th has occurred that is 10
4
times faster
I presume throughout the document you quoted, statements as above are really trying to say:
Th has occured 10^4, i.e., 1E4 times faster?
With all nthe CF stuff I look at the source materisl and any followups. Sometimes followups of followups. gives a sense of balance.
The D(-1) stuff has not been touched by anyone else, so no sense of balance yet. But I've read their latest paper and the "Coulomb explosion" signals are getting a lot more complex, with elaborate explanations for why this should be. That makes me like it less.
I have not looked at those. But bubble meter experiments with low neutron counts are very prone to error. Almost anything can provide contamination.Giorgio wrote:@tomclarke,
yes, the liquid solution experiments never convinced me too.
I was referring here to the solid fracturing tests.
The one they did with different samples and bubble meter indicators to measure neutron emission.
Those are the one I can't figure our where the neutron indications could have come from.
Indeed, but is not low bubble here and is several experiments with different samples.tomclarke wrote:I have not looked at those. But bubble meter experiments with low neutron counts are very prone to error. Almost anything can provide contamination.
I'll look for some material in english and send to you some links or a PM.
Unfortunately all what I have read lately is in Italian.
Maybe you will find the logical step that I am missing as I am really scratching my head over this since that conference.
I think that the "Coulomb explosion" signals are a red herring in the contest the Rossi reactor.tomclarke wrote:Yes, sorry for bad pasting.KitemanSA wrote:Tom,Th has occurred that is 10
4
times faster
I presume throughout the document you quoted, statements as above are really trying to say:
Th has occured 10^4, i.e., 1E4 times faster?
With all nthe CF stuff I look at the source materisl and any followups. Sometimes followups of followups. gives a sense of balance.
The D(-1) stuff has not been touched by anyone else, so no sense of balance yet. But I've read their latest paper and the "Coulomb explosion" signals are getting a lot more complex, with elaborate explanations for why this should be. That makes me like it less.
Unlike laser initiated D(-1) fusion, where "Coulomb explosion" signals are important, in the Rossi reactor, such "Coulomb explosion" signals are to be avoided or minimized to preserve the very important pitted surface structure of the nickel nano-powder catalyst(NiO). These small Heisenberg pits are the fusion triggers that the Rossi reactor absolutely depends on.
In the Rossi reactor it is the internal lattice pressure and temperature increases from two energy amplification sources that matter. One is phonon excitation energy exchange that transfers thermal based lattice kinetic energy to the Rydberg matter to excite the H(1) state to the H(-1) excited metalized compressed state, and the other is the momentum energy fluctuation increase resulting from the Heisenberg uncertainty principle of small volumes that compresses and excites the H (-1) to a state of fusion.
Well, you can't tell or sure without replication. But...Giorgio wrote:@tomclarke
Here you go:
http://files.splinder.com/9f099aeeccd22 ... e79038.pdf
http://files.splinder.com/d01c16188dffd ... eb343c.pdf
It seems the bubble detector sees neutrons when the sample breaks which presumably results in vibraion and sound. Either of these could result in BD false positives?
You would need careful investigation under different conditions to work out precisely what.
Best wishes, Tom
Vibrations was the first point I raised.tomclarke wrote:Well, you can't tell or sure without replication. But...Giorgio wrote:@tomclarke
Here you go:
http://files.splinder.com/9f099aeeccd22 ... e79038.pdf
http://files.splinder.com/d01c16188dffd ... eb343c.pdf
It seems the bubble detector sees neutrons when the sample breaks which presumably results in vibraion and sound. Either of these could result in BD false positives?
You would need careful investigation under different conditions to work out precisely what.
Best wishes, Tom
The reply was that the detectors are stable to vibrations. I am still trying to verify this point with the detectors manufacturer.
I am also taking contacts with another lab in Milano who is stating to have replicated the work. I'll let you know if you are interested.
It is always interesting. Though it will need careful replication, testing every parameter against control, to make me think this one means much.Giorgio wrote:tomclarke wrote:Well, you can't tell or sure without replication. But...Giorgio wrote:@tomclarke
Here you go:
http://files.splinder.com/9f099aeeccd22 ... e79038.pdf
http://files.splinder.com/d01c16188dffd ... eb343c.pdf
It seems the bubble detector sees neutrons when the sample breaks which presumably results in vibraion and sound. Either of these could result in BD false positives?
You would need careful investigation under different conditions to work out precisely what.
Best wishes, Tom
Vibrations was the first point I raised.
The reply was that the detectors are stable to vibrations. I am still trying to verify this point with the detectors manufacturer.
I am also taking contacts with another lab in Milano who is stating to have replicated the work. I'll let you know if you are interested.
Best wishes, Tom