Re: [Vo]:Storms preprint
In reply to Jones Beene's message of Thu, 17 Mar 2022 19:48:52 + (UTC): Hi, That's more or less what I had in mind. Mills' "energy hole" is 27.2 eV. This equates to a wavelength of 45.582 nm. So a cavity of that size would resonate at just the right frequency to act as an "energy hole", with an "m" of at least 1. Furthermore, all "m" values would actually be represented, because 2, 3, 4 etc, waves would also resonate. If the cavity had a conductive metal wall, then the electrons in the metal would resonate along with the EM wave, and due to the resistance of the metal, their energy would be converted into heat, thus providing a sink for the Hydrino shrinkage energy. I proposed this to Mills several years ago, but he doesn't appear to have done anything with it. >Robin >There is a possibility that the NAE site corresponds to the Casimir effect and >its geometry. >Otherwise it is a coincidence that the presumed active zone is similar. > >This Casimir dimension has maximum effect at around 2 nm --- and by now could >be etched using state of the art nanolithography > >This is especially interesting if some hind of deuterium "densification" is >part of the process since it would be possible to arrange a structured array >of precise cavities instead of depending on random placement > >... nanolithography in order to optimize LENR would be a natural for someone >like Google, no? > >Surely they have considered this possibility > > >Robin wrote: > > Self-assembly creates regular structures (think crystal growth). It is > > being considered for bleeding edge IC production. >I don't think it's too much of leap to consider using it for e.g. a surface >treatment of a cathode, or possibly a 3D >whole cathode construction, or creation of a target for a gas based reaction. >With nano particles, you will, by coincidence, get some NAE sites. With >self-assembly, you may have the ability to >ensure that almost all the material consists of NAE sites, thus improving the >power density markedly. > >Of course this entails knowing exactly what an NAE site is. I have an idea on >that score, but it involves Hydrinos, so >will shut up unless asked. > >Regards, > >Robin van Spaandonk > > > Regards, Robin van Spaandonk
Re: [Vo]:Storms preprint
Robin There is a possibility that the NAE site corresponds to the Casimir effect and its geometry. Otherwise it is a coincidence that the presumed active zone is similar. This Casimir dimension has maximum effect at around 2 nm --- and by now could be etched using state of the art nanolithography This is especially interesting if some hind of deuterium "densification" is part of the process since it would be possible to arrange a structured array of precise cavities instead of depending on random placement ... nanolithography in order to optimize LENR would be a natural for someone like Google, no? Surely they have considered this possibility Robin wrote: > Self-assembly creates regular structures (think crystal growth). It is being > considered for bleeding edge IC production. I don't think it's too much of leap to consider using it for e.g. a surface treatment of a cathode, or possibly a 3D whole cathode construction, or creation of a target for a gas based reaction. With nano particles, you will, by coincidence, get some NAE sites. With self-assembly, you may have the ability to ensure that almost all the material consists of NAE sites, thus improving the power density markedly. Of course this entails knowing exactly what an NAE site is. I have an idea on that score, but it involves Hydrinos, so will shut up unless asked. Regards, Robin van Spaandonk
Re: [Vo]:Storms preprint
In reply to Jed Rothwell's message of Thu, 17 Mar 2022 13:06:52 -0400: Hi, >Robin wrote: > > >> Just Google atomic or molecular self-assembly. >> > >I don't see how this could apply to making a cathode. Perhaps you could >explain in a little more detail? Self-assembly creates regular structures (think crystal growth). It is being considered for bleeding edge IC production. I don't think it's too much of leap to consider using it for e.g. a surface treatment of a cathode, or possibly a 3D whole cathode construction, or creation of a target for a gas based reaction. With nano particles, you will, by coincidence, get some NAE sites. With self-assembly, you may have the ability to ensure that almost all the material consists of NAE sites, thus improving the power density markedly. Of course this entails knowing exactly what an NAE site is. I have an idea on that score, but it involves Hydrinos, so will shut up unless asked. Regards, Robin van Spaandonk
Re: [Vo]:Storms preprint
Robin wrote: > Just Google atomic or molecular self-assembly. > I don't see how this could apply to making a cathode. Perhaps you could explain in a little more detail?
Re: [Vo]:Storms preprint
I was thinking more like Pamela Mosier-Boss Pd plating technique but on something already spongy creating a large surface area. It's all about the Gamow factor in solid state (periodic pottential) conditions. On Tue, Mar 15, 2022, 3:00 PM Robin wrote: > In reply to Jed Rothwell's message of Tue, 15 Mar 2022 09:53:21 -0400: > Hi, > > Just Google atomic or molecular self-assembly. > > >Robin wrote: > > > > > >> I wonder if atomic/molecular self-assembly could be used to create > uniform > >> structures of exactly the right size and > >> shape for the NAE? > >> > > > >What do you mean by "self-assembly"? What RNA and ribosomes do? > Regards, > > Robin van Spaandonk > >
Re: [Vo]:Storms preprint
In reply to Jed Rothwell's message of Tue, 15 Mar 2022 09:53:21 -0400: Hi, Just Google atomic or molecular self-assembly. >Robin wrote: > > >> I wonder if atomic/molecular self-assembly could be used to create uniform >> structures of exactly the right size and >> shape for the NAE? >> > >What do you mean by "self-assembly"? What RNA and ribosomes do? Regards, Robin van Spaandonk
Re: [Vo]:Storms preprint
Robin wrote: > I wonder if atomic/molecular self-assembly could be used to create uniform > structures of exactly the right size and > shape for the NAE? > What do you mean by "self-assembly"? What RNA and ribosomes do?
Re: [Vo]:Storms preprint
In reply to CB Sites's message of Mon, 14 Mar 2022 18:58:12 -0400: Hi, I wonder if atomic/molecular self-assembly could be used to create uniform structures of exactly the right size and shape for the NAE? >Oops, I somehow moused over to the send button by accident. So anyway >carbon sponge was used as an antistatic chip carrier. I wonder if >electro-plating the material with a Pd would create a dense >reproducible form for cavities required for Dr. Storm's experiments? [snip] Regards, Robin van Spaandonk
Re: [Vo]:Storms preprint
Oops, I somehow moused over to the send button by accident. So anyway carbon sponge was used as an antistatic chip carrier. I wonder if electro-plating the material with a Pd would create a dense reproducible form for cavities required for Dr. Storm's experiments? On Mon, Mar 14, 2022 at 6:53 PM CB Sites wrote: > Great paper. Really enjoyable to read and ponder on. There is a > material I've played around with called carbon sponge. It's was used in > the old days as an antistatic > > On Mon, Mar 14, 2022 at 1:14 PM Jed Rothwell > wrote: > >> Here is a preprint of an ICCF-23 paper: >> >> Storms, E. *The Nature of the D+D Fusion Reaction in Palladium and >> Nickel (preprint)*. in *ICCF-23*. 2021. Xiamen, China. >> >> https://www.lenr-canr.org/acrobat/StormsEthenatureob.pdf >> >>
Re: [Vo]:Storms preprint
Great paper. Really enjoyable to read and ponder on. There is a material I've played around with called carbon sponge. It's was used in the old days as an antistatic On Mon, Mar 14, 2022 at 1:14 PM Jed Rothwell wrote: > Here is a preprint of an ICCF-23 paper: > > Storms, E. *The Nature of the D+D Fusion Reaction in Palladium and Nickel > (preprint)*. in *ICCF-23*. 2021. Xiamen, China. > > https://www.lenr-canr.org/acrobat/StormsEthenatureob.pdf > >
[Vo]:Storms preprint
Here is a preprint of an ICCF-23 paper: Storms, E. *The Nature of the D+D Fusion Reaction in Palladium and Nickel (preprint)*. in *ICCF-23*. 2021. Xiamen, China. https://www.lenr-canr.org/acrobat/StormsEthenatureob.pdf
