ICCF-24 is trending big time...

Curious

What are the stats on this thread now 🤔

Quote from RE The Playground

Since your are a moderator --- maybe some rules would be helpful. Is this thread moderated or not? If so, how will it be cut off if someone breaks from the dialog? I assume that you can talk about anything in the playground without being heard by adults. So what is the purpose exactly? And how many posts that are contrary before the thread is closed? I noticed on several sites that the conversation has been cut short. Where are the fences?
A lot of people do not want to be slinging poop. And are only interested with the debate. The science of LENR. Are you guys sure about this?

Cold Fusion Controversy

CMNS Active Radiation Shielding

(thin film solid state atomic energy sheathing for spacecraft)

Creates a supra-conductive magnetic field that directs space radiation along contolled channels and vectors away from the ship.

This begs a question.

How quickly can a battery gigafactory be converted to a fusion diode factory? There are close to 100 operating today.

Better yet... To build a terafactory?

Not long, I think.

Quote from JedRothwell

all at one factory?!?

One cell phone mega factory was used as an example. There are many cell phone mega factories all over the world.

A battery giga factory would be another example of how rapidly 1kw LENR Electric solid state CMNS energy gadgets could be churned out. I think the complexity of a smart phone makes it a better example.

The race to dominate battery giga factories is certainly of interest. Similar enough to imagine such a race to fill world energy needs similarly, no?

1kw is easy. Electrical engineers know how to wire these together for 10 or 100 or 1000... in a nice box.

Example for Study

Title

WE ARE OVER ELON MUSK’S 100 GIGAFACTORY TARGET FOR SUSTAINABLE ENERGY: DO WE NEED A TERAFACTORY? 17th May 2020

Quote

In a 2016 National Geographic documentary, Before The Flood, Leo DiCaprio looked at an array of technologies that could move the world to a low carbon future.

The documentary led DiCaprio to meet Elon Musk at a Tesla Gigafactory in Nevada that was under construction. They had the following exchange:

Elon Musk: “Batteries are critical to a sustainable energy future.

“We did calculations…what would it take to transition the whole world to sustainable energy, what kind of [battery cell] throughput would you actually need… You would need 100 gigafactories…

Leo DiCaprio: “100 of these…that would make the United States…

EM: No, the whole world

LDC: The whole world?

EM: All energy

LDC: That’s it?

EM: Yeah

LDC: That sounds manageable

- end quotes

Source

Benchmark Mineral Intelligence also known as Benchmark Minerals, founded by Simon Moores in 2014, is a London-based IOSCO-regulated Price Reporting Agency and specialist information provider for the lithium ion battery to electric vehicle supply chain.

·

We are over Elon Musk’s 100 Gigafactory target for sustainable energy: Do we need a Terafactory? | Benchmark

In a 2016 National Geographic documentary, Before The Flood, Leo DiCaprio looked at an array of technologies that could move the world to a low carbon future.…

www.benchmarkminerals.com

·

Your connection to this site is secure

Also

The manufacturing supply chain issues facing the CMNS energy industries will be similar to battery gigafactories.This interview lends insight.

International EV Batteries 2021...Q&A with George Miller, Benchmark Mineral Intelligence 30 Jul 2021 Institution News Team

International EV Batteries 2021...Q&A with George Miller, Benchmark Mineral Intelligence

105,120,002 1kw LENR Electric energy tech units a year. From one factory.

I suppose...

Quote from gerold.s

the strategic implications are on the other....and these are IMO equally important,

One question on strategy, put forth in 2013 before the US defense agencies...

How can we strategize to create a world where no one feels a need to create war?

LENR, ZPE, Graphene, Nanotechnology, Robotics,Virtual IT, Supercomputers, Artificial Intelligence, and Bioengineering; all these arts of science and advanced technologies are of interest in this document. Everyone working in these scientific fields should review this document, envision the solution proposed by Dennis Bushnell, bring the issues forward in public forums, and work together to create a world where people do not feel the need to go to war.

What can the emergent LENR energy and advanced technology communities do to contribute to a world culture that does not feel the need to ever go to war again?

That is the challenge according to Bushnell, and in many peoples’ opinion, the only solution.

Think out of the box… We will enable peace… It is extremely important for our future.

Source

FEBRUARY 14, 2014

"Future Strategic Issues/Future Warfare [Circa 2025] Dennis Bushnell – NASA – LENR" https://coldfusionnow.org/tag/future-warfare/

Imagine a 1kw solid state energy device the size, and complexity, of a smart phone...

Coming out of single factory at an astounding rate of one made every three seconds.

Like this.

Quote from Previous post by Alan Smith

the deadline for applications is 1 February 2017

I am interested in the results of the 2017 competition.

Quote

Organisations can apply for a share of £750,000 to investigate new technologies that generate power for robotic and autonomous systems.

Also

Quote from Alan Smith

Alan,

My name is Dominick Protomastro and I work on corporate innovation programs at Greentown Labs, the largest climatetech incubator in North America.

Personally

I will be confused and disappointed if Dominick does not attend ICCF-24 in person, for at least the closing day.

He would be remiss in doing so, considering his mission.

Falsified data at MIT in 1989. Carl Page basically called them liars at his recent keynote address at the Nuclear Energy Institute.

Mainstream fusion is rife with intentional misleading data...

Anyways, always good to study and gain another perspective.

I am reviewing the 500+ articles at LinkedIn by Jamal Shrair

SELF-SUSTAINED NUCLEAR FUSION REACTION CAN ONLY TAKE PLACE IN CONDENSED MATTER ENVIRONMENT

(Condensed matter nuclear power can rescue the planet from the great danger posed by the fossil fuels and fission nuclear power plants. It also, helps economic…

www.linkedin.com

Current science has become enamored with unfalsifiable fantasy (and lies) rather than rigorous theory...

Katsuaki Tanabe's research while affiliated with Kyoto University and other places

Field Enhancement in Metal Nanogaps

Chapter

Jan 2022

Katsuaki Tanabe

In the previous chapters, we discussed the plasmonic field enhancement factors on planar and spherical surfaces and also at sharp tips of nanoparticles or nanoscale surface roughnesses of hydrogen-absorbing transition metals.

Thanks

Wishing you wellness on your way!

Safety rules caution opening a can 🥫 of wormholes...

The more I study what's in the many many types of obsidian...

Also

Methods of making specific recipes of obsidian...

You know what you're doing to some degree. Most likely better than I thought.

Be S...SAFE

Awesome thanks 😊

In November 1911, Marie Skłodowska-Curie was weeks away from being awarded the Nobel Prize in Chemistry. She received her first Nobel in 1903 for Physics, and the new award meant that she was the first person ever to receive two Prizes. She remains the only person to be recognized in two different sciences. Though her extraordinary work as a scientist should have been all anyone cared about, it seemed that many were preoccupied with her personal life.

Pierre Curie died in 1906, leaving Marie as a widow. A few years later, she became romantically involved with physicist Paul Langevin, who had been a doctoral student of Pierre’s. Though Langevin was separated from his wife, they were still technically married. The relationship caused troubles in the Langevin home, but that was nothing compared to what was about to spill over into the public eye.

Curie, Langevin, and about 20 other scientists were invited to an elite, invitation-only conference in Brussels in the fall of 1911. During this time, love letters between Curie and Langevin had been given to members of the media by Langevin’s wife, who portrayed Curie as an evil homewrecker.

When Curie returned home to France after the conference, she was greeted by a mob that surrounded her house and terrified Curie’s daughters, who were only 7 and 14 years old at the time. Curie and her daughters temporarily moved in with a friend until the scandal died down.

Albert Einstein—who had just recently been introduced to Curie at the Brussels conference—was disgusted by the media’s actions, prompting him to write this letter to his new friend:

"Highly esteemed Mrs. Curie,

Do not laugh at me for writing you without having anything sensible to say. But I am so enraged by the base manner in which the public is presently daring to concern itself with you that I absolutely must give vent to this feeling. However, I am convinced that you consistently despise this rabble, whether it obsequiously lavishes respect on you or whether it attempts to satiate its lust for sensationalism!

I am impelled to tell you how much I have come to admire your intellect, your drive, and your honesty, and that I consider myself lucky to have made your personal acquaintance in Brussels. Anyone who does not number among these reptiles is certainly happy, now as before, that we have such personages among us as you, and Langevin too, real people with whom one feels privileged to be in contact. If the rabble continues to occupy itself with you, then simply don’t read that hogwash, but rather leave it to the reptile for whom it has been fabricated.

With most amicable regards to you, Langevin, and Perrin, yours very truly,

– Albert Einstein, November 23, 1911

.

P.S. I have determined the statistical law of motion of the diatomic molecule in Planck’s radiation field by means of a comical witticism, naturally under the constraint that the structure’s motion follows the laws of standard mechanics. My hope that this law is valid in reality is very small, though."

The typical noble metals Au and Ag are considered as plasmonic supporters for excitation of hybrid plasmonic modes in bowtie dimers.

Solid State Atomic and Fusion Energy,

Is this relevant to 'Cold Fusion' aka LENR, Lattice Confinement Fusion, LEC, Fusion Diode, Nano Ball Lightning

CMNS energy technologies

OR

Is this more about traditional 'Hot Fusion'?

Quote from Previous post

The large field enhancements in the nanogaps of hydrogen-absorbing transition metals observed in this study can potentially be utilized for various energy applications, such as hydrogen storage, sensing, and nuclear fusion.

DOI:10.3390/nano9091235Corpus ID: 201829708

"Lightning-Rod Effect of Plasmonic Field Enhancement on Hydrogen-Absorbing Transition Metals"

Norihiko Fukuoka, K. Tanabe, Published 30 August 2019

Physics, Materials Science, Nanomaterials

Abstract

The plasmonic enhancement of electromagnetic field energy density at the sharp tips of nanoparticles or nanoscale surface roughnesses of hydrogen-absorbing transition metals, Pd, Ti, and Ni, is quantitatively investigated. A large degree of energy focusing is observed for these transition metals in the microwave region, even surpassing the enhancement for noble metals according to the conditions. Pd, for instance, exhibits peak field enhancement factors of 6000 and 2 × 108 in air for morphological aspect ratios of 10 and 100, respectively. Metal surfaces possibly contain such degrees of nano- or micro-scale native random roughnesses, and, therefore, the field enhancement effect may have been unknowingly produced in existing electrical and optical systems. In addition, for future devices under development, particularly in hydrogen-related applications, it is desirable to design and optimize the systems, including the choice of materials, structures, and operating conditions, by accounting for the plasmonic local energy enhancement effect around the metal surfaces.

Source
Semantic Scholar is an artificial-intelligence backed search engine for academic publications developed at the Allen Institute for AI and publicly released in November 2015. It uses advances in natural language processing to provide summaries for scholarly papers.

[PDF] Lightning-Rod Effect of Plasmonic Field Enhancement on Hydrogen-Absorbing Transition Metals | Semantic Scholar

For future devices under development, particularly in hydrogen-related applications, it is desirable to design and optimize the systems, including the choice…

www.semanticscholar.org

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Quote from JedRothwell

If it were 5 or 10 microwatts it could light an LED

Watch out Rossi...

I posted this on The Playground. A few friends said it is relevant to advanced CMNS solid state fusion development and may be worthy of its own thread 🧵

How might this paper relate to traditional fusion energy development is the question in our minds. Not being physicists, its posted here for review and initial reactions and comments. If it is relevant to CMNS Solid State Atomic and Fusion energy development...

A dedicated thread for in depth discussion will be started.

Thanks [email protected]

International Journal of Hydrogen Energy

Volume 46, Issue 27, 19 April 2021, Pages 14581-14591

International Journal of Hydrogen Energy

"Nanogap Plasmonic Field Enhancement on Hydrogen-Absorbing Transition Metals"

Nanogap plasmonic field enhancement on hydrogen-absorbing transition metals

The electromagnetic field enhancement factors by gap plasmons between two spherical metal particles are calculated for hydrogen-absorbing transition m…

www.sciencedirect.com

Abstract

The electromagnetic field enhancement factors by gap plasmons between two spherical metal particles are calculated for hydrogen-absorbing transition metals Pd, Ti, and Ni, and reference noble metals Au, Ag, and Cu, in air, H2, or vacuum, and H2O. The dependence of the field enhancement factors on the metal species, the field wavelength, the electric field polarization, the separation of the two metal particles, and the observing location is systematically investigated. Field enhancement is observed significantly large in the gap of two metal particles and sensitive to the particle separation, but insensitive to the position in the gap, indicating a geometric flexibility for applications. The spectral peak field enhancement factors for Pd, Ti, and Ni do not compete with those for Au, Ag, and Cu, but do in the microwave regime. For the electric field parallel to the bipartite alignment, the field enhancement factors in the gap for Pd, Ti, and Ni are observed as large as several hundred and ten thousand for the separation-to-radius ratios of 0.1 and 0.01, respectively, for a wide wavelength region spanning from the visible to the infrared.

The large field enhancements in the nanogaps of hydrogen-absorbing transition metals observed in this study can potentially be utilized for various energy applications, such as hydrogen storage, sensing, and nuclear fusion.

In practical metallic material systems, it is important to account for such a gap-plasmon effect because nanoscale gaps commonly exist, for instance, on rough metal surfaces and in metal particle aggregates.

International Journal of Hydrogen Energy

Volume 46, Issue 27, 19 April 2021, Pages 14581-14591

International Journal of Hydrogen Energy

"Nanogap Plasmonic Field Enhancement on Hydrogen-Absorbing Transition Metals"

Nanogap plasmonic field enhancement on hydrogen-absorbing transition metals

The electromagnetic field enhancement factors by gap plasmons between two spherical metal particles are calculated for hydrogen-absorbing transition m…

www.sciencedirect.com

Abstract

The electromagnetic field enhancement factors by gap plasmons between two spherical metal particles are calculated for hydrogen-absorbing transition metals Pd, Ti, and Ni, and reference noble metals Au, Ag, and Cu, in air, H2, or vacuum, and H2O. The dependence of the field enhancement factors on the metal species, the field wavelength, the electric field polarization, the separation of the two metal particles, and the observing location is systematically investigated. Field enhancement is observed significantly large in the gap of two metal particles and sensitive to the particle separation, but insensitive to the position in the gap, indicating a geometric flexibility for applications. The spectral peak field enhancement factors for Pd, Ti, and Ni do not compete with those for Au, Ag, and Cu, but do in the microwave regime. For the electric field parallel to the bipartite alignment, the field enhancement factors in the gap for Pd, Ti, and Ni are observed as large as several hundred and ten thousand for the separation-to-radius ratios of 0.1 and 0.01, respectively, for a wide wavelength region spanning from the visible to the infrared.

The large field enhancements in the nanogaps of hydrogen-absorbing transition metals observed in this study can potentially be utilized for various energy applications, such as hydrogen storage, sensing, and nuclear fusion.

In practical metallic material systems, it is important to account for such a gap-plasmon effect because nanoscale gaps commonly exist, for instance, on rough metal surfaces and in metal particle aggregates.

?Life in lava?

http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.529.1028&rep=rep1&type=pdf

Quote from Dr Richard*

given all the patents in the public domain,

An interesting kettle of fish the wealth of which, even if once denied, hold a bit at a-priori I suppose. Difficult to sort out.

Also

Open source patents in development.

It's a whole New Fire ballgame.