Talk:Cold fusion/Archive 31

Kirk's opinions here are actually not helpful; if he supplied us with reliable source on the objections, or even, for our purposes in Talk, specifics about the objections, the "other explanations," we could use it. Instead, we are seeing what comes from some experts: "Trust me! I'm the expert, you are ignorant." The attempt to discuss the Calibration Constant Shift at Talk:Kirk shanahan was a bust, he would not engage on the issues, kept claiming "ad hominem" attacks whenever his claims were criticized, and then asserted that if what the "teacher" is "teaching" is questioned, that's a personal attack. Yeah, some professors think like that. Not the good ones, that is, not the ones who know how to teach. They might be experts in their fields, but not in teaching. If developing true scientists is the goal, skepticism must be encouraged. Feynman had little respect for teachers who expected students to just copy down and study what they said, as if it were gospel, and little respect for students who followed that and didn't question. --Abd (talk) 16:19, 20 May 2009

While I think it is possibly inappropriate to discuss this here, as your interpretation of the discussion that you've been having with Kirk was raised here it needs a more public response: having just read the material on User talk:Kirk shanahan, the above comments represent a serious mischaracterisation of the discussion. Kirk has provided a line-by-line analysis of your points, while you seemed to have missed his central arguments. His analogy, and following claims, seemed apt based on what I read prior to that. It would be best if you focused on discussion about the article here, and tried to avoid attacking the editors. - Bilby (talk) 00:00, 21 May 2009 (UTC)

You have got to be kidding, right, Bilby? Shanahan's section header: Abd shows his fanacticism. If it's ever necessary, the sequence there can be extracted, showing how efforts to glean a coherent explanation from him were met with derision and contempt; however, of course, this isn't for here. Shanahan is not an editor of this article (for a long time), his opinions and behavior on his Talk page are moot. I will collapse this part. --Abd (talk) 01:27, 21 May 2009 (UTC)

Striking or removing would make me happier, but I can live with collapsing. - Bilby (talk) 01:53, 21 May 2009 (UTC)

Hey Abd, reread Bilby's comment of 00:00 21 May. Do you get the message yet? Here's another _new_ editor who can see what I have been saying. It's very plain to him, and everybody else, except CF fanatics. You can't see it because you have emotionally committed to a nuclear-only position. How can you do that, when you admit you are new to the field?? There is only one explanation, and I've offered it. Kirk shanahan (talk) 18:45, 21 May 2009 (UTC)

Wow, Kirk, where did you learn to read minds like that? Ask for your money back. People emotionally committed to a field tend to be those actually invested in it. I was a skeptic five months ago. I'm still a skeptic, but one who has moved to a neutral or somewhat pro-cold fusion position, and I'm a dialectical thinker, which means that, depending on context, I will appear to be asserting one side of an issue. Look more carefully, you will see that I provide comments on both sides. For example, above I mention Vyosotskii's work on Water memory, which is about as fringe a topic as one can currently find outside of looney bins. To me, skeptic doesn't mean someone who believes anything new is false. It's someone who doubts all alleged knowledge, but there are practical limits. I don't doubt that I'm sitting at a keyboard entering this edit, not in practice.

Please, Kirk, tell me what happened with Robert Duncan (physicist)? How did they get to him? Bribery? Dancing girls? Sleight-of-hand? Or is it merely that a skeptical but open-minded physicist took a careful look at the research and the published material? I'm new to the field, but I'm not new to recognizing attachment, I'm an old hand at it, and attachment to opinion is what I see. Show me some quality research refuting the present major claims of the cold fusion researchers. I don't see the papers of 1989-1990 as contradicting more than a few of the positive results, earlier or later. Period. Rather, those papers raised reasonable doubts. In some cases, those papers were themselves defective, but in others, the doubts with respect to work they were directly criticizing were reasonable.

There isn't any debate over the difficulty, regarding what was well-established by 2004, of demonstrating the excess heat and other results and, as you know, they go together, excess heat as inferred from experimental records is highly correlated with helium as independently measured. Sure, that can happen by chance, but we routinely risk our lives depending on low probabilities more likely to fail us than that the correlation is to be due to chance.

So how are we going to approach this situation? I'm inclining toward a meta-article, a set of documents that reviews the topic from different perspectives. it might be best to start with history. What's the history of the cold fusion affair? What is the publication record? There is a huge difference between a negative replication and a refutation. We will not be likely to come to consensus on this topic unless there is a detailed examination of every necessary element, that's what I know from consensus process. Until then, it's one set of bull-headed conclusions against another, and "victory" is awarded to whatever side can successfully appeal to editor ignorance or prejudice. Kind of like what happened in 1989 with scientists. The Fleischmann report was quite disturbing to some, it meant we didn't know bleep, if it was true. Or so it seemed. (Actually, it would have only meant that the boundaries were slightly different than we thought. But never underestimate how much people dislike having their world-view revised.)

Until there is real consensus here, this article will be plagued with edit warring and contention. There are some who obviously believe that such contention is unavoidable and necessary. I disagree, and I have life-experience that teaches me otherwise. Many of those who are strongly opposing my work have been doing so for a long time, because I'm opposing what has been called "Majority POV-pushing," and, guess what? -- the majority can tend to think that their POV is neutral. It's a very easy mistake to make, especially when communication between the majority and the minority is poor. Improve that communication, and disputes sometimes disappear. The last thing I'd want is to win here at the expense of other editors. My goal is true consensus, not that my supposed opinion prevails. If we have true consensus, improving and maintaining the article will be much easier, many hands make short work. Do the math: if there is a 2:1 majority, often considered a supermajority, that still means that, compared to 100% effort, we have 33% net effort. The available labor can triple if people are united. --Abd (talk) 21:25, 22 May 2009 (UTC)

I noticed that the proposed explanations section only covers two expl.: experimental error and hydrino theory. They are many more theories out there- both on sources of error or how fusion could happen - or even how excess heat could happen w/out fusion. ideally, a section called "proposed explanations" would give a good survey of them, but the section as is only lists two, and in so doing give them way too much weight in comparison to other theories (namely, infinity). I think this section should show more of the various explanations - a broad survey - or if this cannot be done well in a reasonable amount of space, we should consider removing it, or perhaps putting a broad survey of explanations in the article in some other way. Kevin Baas^talk 15:21, 22 May 2009 (UTC)

Ack! You're just noticing that! I've only been complaining about that for months! For the record, any set of experimental observations dealing with the same class of observation (i.e., excess heat, He4 detection, pits, etc.) has a conventional explanation available. My original contribution to the article was to describe these for the specific classes noted in the article in support of the 'nuclear' cause. And I was asked to do this becasue the editors of that time period (c. May '08) noted the same thing you did! Kirk shanahan (talk) 16:42, 26 May 2009 (UTC)

If there were "proposed explanations" listed in a reliable source, like one of the DoE reviews, that would be great. If we're still talking about proposed explanations listed in fringe journals and books, I would oppose that. Hipocrite (talk) 15:31, 22 May 2009 (UTC)

Excess heat - 3 pubs in Thermochimica Acta; He4 - DOE review panel concerns on contamination coupled with Clarke paper in Fus. Sci. and Tech (2003); heavy metal transmutation - not peer reveiwed, but specific examples of finding contaminants point of origin and/or re-identifying contaminants; pits - primarily evidence of physical damage effects and admission of same in papers (some not peer reviewed) + commonality of agreement on specific factors in experiments that would lead to such; and on and on. Kirk shanahan (talk) 16:49, 26 May 2009 (UTC)

I've gathered the impression that you're pretty liberal in your use of the term "fringe", esp. when it comes to any publication that's ever said anything pertaining to C.F., and I certainly wouldn't think it prudent to narrow our sources down to one four-page review, though I realize that's not what you're suggesting. I just think that we should focus on explanations in as much as how much they represent the active research community, since, after all, our goal is to inform the reader about the what is out there and what is going on. In any case, if you have any suggestions about how to make the section better, e.g. some of the more common / representative proposals, or some ideas on wording / phrasing, i'd be interested to hear them. Kevin Baas^talk 15:46, 22 May 2009 (UTC)

I was just looking back, and early in March, Phil153, who has generally taken a quite skeptical position here, acknowledged that the paper in Frontiers of Physics In China might be usable somewhere in the article, he wanted to see a specific proposed edit.[7] Well, he got one, though he hasn't edited this article for months, see above for what Hipocrite removed. "Proposed explanations" would, for a fringe topic, necessarily be coming from fringe sources. If, aside from the "experimental error" explanation, they were coming from mainstream sources, the topic would not be fringe, by definition! The mainstream doesn't propose explanations of experimental phenomena they consider a mistake. From Storms, the two explanations that are most notable are hydrino theory, which involves a major revision of quantum mechanics, literally at the fringe (i.e., as a special case not normally seen, fractional energy levels for electrons, below the minimum Bohr orbit), and the Beryllium-8 hypothesis. But there are others which have been published in peer-reviewed journals. I wanted to find secondary sources, and Storms and He Jing-Tang are secondary sources, reviews of the field. I frankly don't understand why we can't use them to source theories as notable. No implication was made or implied that these theories were "accepted by the mainstream" which remains blissfully ignorant of them, as far as I've been able to tell. Cold fusion researchers have largely steered clear of theory, since they consider it most important to establish the phenomena first. Don't you think that's a good idea? Figure out if it is happening before trying to figure out why it happens? But Takahashi is an exception. See http://www.lenr-canr.org/acrobat/TakahashiAtetrahedra.pdf , which is, unfortunately, a conference paper, though it gives an idea of Takahashi's work. From it, The extended model should contain consistent story of He-4 production without neutrons and mass-8-and-charge-4-increased transmutation without hard radiation. Around focal points (t-sites, o-sites, defects, etc.), microscopic coherence in radial dynamic motion of neighboring deuterons may realize the short-time bosonization of electrons to make sufficient screening ofCoulomb repulsion for fusion. There is [8], which appears to be in a peer-reviewed journal.[9] I haven't seen the whole paper, but it does talk about 4D fusion in the page shown. --Abd (talk) 17:46, 22 May 2009 (UTC)

The 2004 DOE review did discuss one theory: To explain these unusual characteristics, the reviewers were presented with a theoretical framework that purported to describe how collective energy from the material lattice couples to a deuteron pair to induce fusion, how the only fusion reaction channel that occurs would be the production of 4He, and how all the energy is coupled back into the material in the form of heat instead of high energy gamma-rays. The reviewers raised serious concerns regarding the assumptions postulated in the proposed theoretical model for the explanation for 4He production.

The problem is that this theory doesn't seem to be generally accepted as viable in the cold fusion field. Sure, it was proposed. Back then. Our article had some stuff about "coupling to the lattice," which is, in fact, a stretch, though it is one of the obvious possibilities that one would think of to explain the lack of gammas, but it's not just the gammas, it's the branching ratio; the mode for gamma emission is rare. The Be-8 theory, which certainly existed at the time of the 2004 review, doesn't seem to have been considered. I looked at the McKubre paper presented to the review panel and it does not seem to have contained proposed theories. However, the panel may have been orally presented with a theory, it might be somewhere in the papers cited in the McKubre review.

The 2004 DOE review is not of a quality comparable to peer-reviewed publications. What we usually look at is the summary, and we don't even know who the author of that summary is. We have access to the individual review papers, and those, of course, aren't peer-reviewed, they are individual expert opinions and they widely differ from each other. But the 2004 DOE review is one of the best gauges we have as to "mainstream" opinion on cold fusion, among mainstream scientists in related fields who actually look at the evidence. My position is that "mainstream scientists" who aren't familiar with the research aren't any better informed than much of the public, and they get their opinions either from the media, or from a look at very old data, twenty years old, in fact. --Abd (talk) 18:03, 22 May 2009 (UTC)

Hipocrite, in adding criticism of hydrino theory to balance the proposed explanation of cold fusion, has pointed to some very interesting work. First of all, here is the text he added:

Mills' explanation of Classical Quantum Mechanics and hydrinos has been doubted in the literature[116] and is not accepted by most experts in the field nor by mainstream science,[117][118][119] His critics say that, although he has published theory papers in peer-reviewed journals, he has published only in those dealing with speculative work.[117] They also say that he hasn't addressed several deep flaws in his theory.[117]

Sources:

116. Rathke, A critical analysis of the hydrino model, New Journal of Physics, 2005, 7:127.

117. Erico Guizzo, Loser: Hot or Not?, IEEE Spectrum, January 2009.

118. Morrison, Chris, Blacklight Power bolsters its impossible claims of a new renewable energy source, New York Times, October 21, 2008.

Rathke's paper begins with:

Recently, experimental results have been published in respectable physics journals that have been interpreted as support for a new model of the hydrogen atom [1]-[4]. This model predicts the existence of new orbital states for the electron of a hydrogen atom with enhanced binding energy compared to the known hydrogen ground state. These new states have been named hydrinos. Applications of these alleged states have already been considered. In particular, the NASA Institute for Advanced Concepts has funded a study to investigate new propulsion concepts based on the transition of conventional hydrogen states to hydrino states [5].

Although the hydrino model has received considerable public attention, the discussion of the underlying theory has mainly been restricted to the sweeping statement that the hydrino model is in contradiction to quantum mechanics and hence dubious (cf e.g. [6]). This lack of theoretical consideration is particularly unfortunate in view of the wealth of experimental evidence that has been published in peer reviewed journals in favour of the hydrino model [1]-[4], [7]-[22]. In this paper, we attempt to fill this gap by giving a brief review of the theory underlying the hydrino model. We investigate its internal consistency and comment on the possibility that hydrino-like states exist in standard quantum mechanics.

This is quite remarkable. First of all, it treats seriously the experimental evidence for the existence of hydrino (I had no idea there was a "wealth of experimental evidence that has been published in peer reviewed journals in favor of the hydrino model), whereas editors here, including Hipocrite, have treated it as ridiculous pseudoscience, perhaps fraud. I sincerely congratulate Hipocrite for bringing this to our attention, and the wonder here is that he referred to this theory as "garbage,"[10] and his comments as "truth." But I presume that by now he's actually read the paper and may have a different opinion.

Rathke is not actually criticizing so much hydrino theory, as it would apply to Cold fusion, as much as the deterministic model that predicted other hydrino behavior, Mills' Grand unified theory of classical quantum mechanics. Rathke concludes, however, that hydrinos are incompatible with standard quantum mechanics, which is certainly no surprise; however, in his more detailed text, he leaves wiggle room: a state of the hydrogen atom that is less energetic than the ground state cannot be ruled out completely under some exotic conditions at our current level of understanding. Such conditions are however not likely to be fulfilled in the relatively low-energy, low electromagnetic field environment of the plasmas studied by Mills et al. And he regrets that there hasn't been, at least as of his writing, independent reproduction of Mills' results by other experimental groups. That's something we see all the time with cold fusion. Remarkable experimental results, theoretically verifiable (or refutable). Nobody bothers. So many mysteries, so little time!

The IEEE Spectrum article is also quite interesting. It's highly skeptical, "This is part of IEEE Spectrum's SPECIAL REPORT: WINNERS & LOSERS 2009, The Year's Best and Worst of Technology," perhaps this is why Hipocrite cited it three times in three sentences.

The New York Times article has this: Its “hydrino” theory isn’t put forth by a single crackpot; instead, the company employs a good handful of high-level scientists who would presumably rebel if the idea was totally false. It has also taken over $60 million in venture funding. Despite a hearty rejection by the scientific mainstream, and being ignored for years on end, its founder, Randell Mills, has plugged on. We covered the company extensively back in May, when it started saying it had a prototype 50 kilowatt reactor. And then, As I noted in May, it would be odd, if Blacklight were a complete sham, for Mills to place himself in an end game in which he would be definitively proven wrong within just a year or two. So there does seem to be something deeper here. Physicists will deny the hydrino theory, and they may be right; perhaps that’s why there was a distinct note of smugness in Mills’ voice as he said, “The controversy and academic debate won’t stop commercialization.”

For our purposes here, we don't need to know -- at all -- if hydrino theory is correct, compatible with standard quantum mechanics, accepted or rejected. What we need to know is that it is notable as a theory, advanced to explain the phenomena called cold fusion, and that is certainly true. But I personally wonder that there is a science writer at the New York Times who says, "there does seem to be something deeper here," as he postpones judgment, but we have Wikipedia editors who are dead certain that this is all bogus. What I'll say is, "I don't know." I can only report what is in the sources, and think about it a little. --Abd (talk) 20:02, 23 May 2009 (UTC)

Just because someone writes an article about it doesn't make it notable. Any time someone makes sweeping claims in their opening, you need to be dubious. Titanium Dragon (talk) 00:12, 25 May 2009 (UTC)

Well, that's a subjective standard. "Dubious" isn't part of our reliable source guidelines. In any case, there is plenty of source showing notability for hydrino theory: publication in peer-reviewed journals, criticism of it published in a peer-reviewed journal, notice in major media, etc. I'll note Wikipedia:Articles for deletion/Randell Mills, which decided on a redirect to hydrino theory, which was later moved to Blacklight Power. Titanium Dragon, how would you propose we determine notability? --Abd (talk) 01:49, 25 May 2009 (UTC)

The book of Storms received a four page review by Eric Sheldon here in Contemporary Physics in 2008 (vol 49, pages 375–378). Sheldon is Emeritus Professor of Physics at the University of Massachusetts. This article describes hydrino theory as "nowadays widely-discredited". The article of Rathke, cited above, is also damning in its conclusions. Because it is regarded as pseudophysics, at odds with conventional quantum mechanics and quantum field theory, hydrino theory rightly has no WP article of its own. It's not clear why Abd, who gives every appearance of having had no formal training in quantum theory, should be actively advocating hydrino theory here. It is exactly for that reason that the summarising and evaluation of books on WP is through reviews by professional academics like Sheldon, i.e. secondary sources. Pushing crackpot pseudoscience in this way, ignoring secondary sources (such as Sheldon's review), cherry-picking quotes from negative reviews to create a positive spin — this style of editing seems to run counter to all of wikipedia's core policies. I have no interest in editing the namespace article but have watched with consternation as Abd has attempted to generate pseudoscience fatigue on this talk page by his screeds of endless prose on the subject: why is he unduly pushing pseudophysics? Mathsci (talk) 02:54, 25 May 2009 (UTC)

For the record, the Contemporary Physics journal had an impact factor of 4.651 in 2007 in category "physics" [11], Naturwissenschaften had 1.955 in category "multidisciplinary sciences" [12], and Frontiers of Physics in China didn't have an impact factor. --Enric Naval (talk) 17:17, 25 May 2009 (UTC)

Mathsci, calm down. I'm not "advocating hydrino theory." I'm reporting, as a Wikipedia editor should, what is in reliable sources. Hydrino theory is fringe. It certainly is at odds with standard quantum mechanics, that's the whole point, in fact. As to formal training, well, I did sit with Richard P. Feynman through his lectures on quantum theory, but that was a long time ago. I'm not "ignoring Sheldon's review," this is the first time it's been brought to my attention. Thanks for pointing it out. As to hydrino theory, it's not clear from the literature that it is actually "discredited." Certainly it's not accepted. But publication continues in peer-reviewed journals, it appears, none of which is particularly relevant here. Hydrino theory is notable as a possible explanation for cold fusion, and we have adequate source for that. It isn't necessary for a "proposed explanation" to be true, or accepted, and, in fact, were one accepted, cold fusion would no longer be fringe, would it? It's enough that it is notably proposed, which is the case. As to core policies, I'm hewing closely to ArbComm's interpretation of them, with respect to fringe science, whereas, Matchsci, you are quite out on a limb, busy sawing it off. --Abd (talk) 03:28, 25 May 2009 (UTC)

One problem. The URL given for the PDF for Sheldon's review doesn't work. I found the article, [13], but I'd have to pay to read it. --Abd (talk) 03:41, 25 May 2009 (UTC)

Then perhaps you might have to abandon editing the article? Mathsci (talk) 03:56, 25 May 2009 (UTC)

<Immediate response suppressed>. I have to buy every source that some pseudoskeptic suggests? No, Mathsci, you are quite welcome to use sources that you have access to in order to balance the article, should that be required. I will also read the article when I have the opportunity. You provided, above, nothing of interest, nothing that I didn't already know, except for a presently useless reference to a review, though the first words, which I did find in Google scholar, were quite interesting, it looked like they were lauding the book (Storms). Hipocrite added balancing material, and, you might notice, I didn't attempt to take it out. I accepted it. At least in substance. I simply found it interesting to review, you can call that "cherry-picking" if you like, but ... your POV is showing. As it has been for some time. --Abd (talk) 04:02, 25 May 2009 (UTC)

Abd, I think it's you that needs to calm down. You know the secondary source exists now, so it would be intellectually dishonest of you to ignore it. Anyway, if you had checked your email, you would have noticed that I had made a copy of the article available to you a little while back. Mathsci (talk) 04:20, 25 May 2009 (UTC)

Oh and by the way, WP:NPA. I have no point of view on cold fusion, just on your use of sources. My namespace editing record speaks for itself. Mathsci (talk) 04:24, 25 May 2009 (UTC)

I would be dishonest, indeed. Thanks, very much, for the email, which was mailed at Mon, 25 May 2009 04:01:13 +0000. I'd say that the claim about "you would have noticed" was a tad overheated! I don't check my email every minute. I've downloaded the paper and it's quite interesting. As to POV, it's quite apparently a strong "anti-fringe" POV which has, above, identified hydrino theory as "crackpot pseudoscience." That's polemic, not NPOV. Further, the characterization of my reference to hydrino theory, which, it appears, has been accepted by consensus here, and which was rooted in reliable sources, plenty of them, as "pushing crackpot science," is highly offensive and, really, Mathsci, properly, you should apologize. I have no POV on hydrino theory other than an opinion that it is notable. If I needed to decide if it was worthy of the Nobel Prize or of prosecution for fraud, I'd have to toss a coin. We will almost certainly know the difference within a year or two, Mills has been playing what's been called, in the New York Times, an "end game." For all I know, Mills will disappear with a few million dollars, having worked the idea to the limit. On the other hand, there are reasons to be skeptical of this view, as well. --Abd (talk) 14:50, 25 May 2009 (UTC)

Abd, a simple "thank you" would have sufficed. Please stop using this talk page as a forum. On this page you seem to be suggesting pseudoscientific theories like hydrino theory should not be dismissed. The problem is that you argue this directly: you never provide any kind of secondary source. In the case of hydrino theory, it has been discredited by several secondary sources. To paraphrase your favourite physics lecturer, "Surely you're joking, Mr Abd." Mathsci (talk) 22:15, 25 May 2009 (UTC)

I'm using this talk page to explore the topic with the goal of producing a better article. You seem to be using it to explore how you can accuse me of POV-pushing. I've been researching the field, intensely, and started editing the article. You haven't done either and don't seem to care to do so. It is not our job to accept or dismiss theories. We can discuss them for background, and the belief that one can approach a topic like this without such discussion, and still end up with a good article and consensus, is a fantasy. I "never provide any kind of secondary source"? Really?

Storms is a secondary source. He Jing-Tang is a secondary source. The Guardian is a secondary source. The New York Times is a secondary source, and now Sheldon, thanks to you, is a secondary source, a very useful one. Feynman wasn't just my "favorite physics lecturer," he was my favorite person. Because of him, I can beat cross-rhythms, 5:4 easily, maybe 6:5 at my peak, he could do 7:6, as I recall. And I can think in a way that integrates various points of view, a capacity that seems to be blatantly missing from what you report above.

Mathsci, You say that I'm "suggesting pseudoscientific theories like hydrino theory should not be dismissed." It seems you think that they should be dismissed, presumably by us, which is a POV, and, as applied to our work here, would represent POV-pushing. Above, I look at the balancing sources provided by Hipocrite. Did you think that this meant that I think those sources and criticisms should be "dismissed"? I was not objecting and did not object to that material, I didn't revert it when I had the chance. What I noticed was that the critical material acknowledges the notability of hydrino theory. This, apparently, disturbs you, but it is of importance to our work, it underscores why hydrino theory must be covered. Not "promoted" or "dismissed." Covered. --Abd (talk) 23:55, 25 May 2009 (UTC)

moved from Talk:Cold_fusion/to_do, this needs consensus and sources before going into the TODO list --Enric Naval (talk) 20:23, 25 May 2009 (UTC)

The entire article needs a drastic rewrite. The Widom-Larsen theory now satisfactorily explains LENR as a weak interaction phenomenon, not a strong force phenomenon. There is no longer much theoretical mystery. —Preceding unsigned comment added by 173.73.189.162 (talk • contribs) 18:22, 25 May 2009

We probably should cover Widom-Larsen theory. Storms gives it a little space, not much, but here are some references from Storms:

Widom, A. and Laarsen, L., ULtra low momentum neutron catalyzed nuclear reactions on metallic hydride surfaces, Eur. Phys. J., C46, 107, 2006.

Widom, A. and Larsen, L., Nuclear abundances in metallic hydride electrodes of electrolytic chemical cells, arXiv:cond-mat/062472 v1, 2006

Widom, A. and Larsen. L., Absorption of nuclear gamma radiation by heavy electrons on metallic hydride surfaces, arXiv:cond-mat, 2006.

Note that Storms was, above, alleged to have a conflict of interest due to his relationship with Lattice Energy, but he gives short shrift to the theory. I'll note, though, that W-L, as described in the second paper below, also proposes a Be-8 intermediary, it simply gets there in a different way.

Here is an article on W-L theory by Larsen: [14] (4 Dec 2008). See also [15] for another account (23 Oct 2007)

Steve Krivit of New Energy Times gave a talk at the 2007 ACS conference, video at http://video.google.com/videoplay?docid=-1944189360430905288&hl=en; covering the field and reporting on W-L theory a bit, but there is much more depth in the documents above. Point to take home from the Krivit lecture: we don't know WTF is happening. There are theories that might explain cold fusion, but as the introduction to the "Proposed explanations" section said, According to Storms (2007), no published theory has been able to meet all the requirements of basic physical principles, while adequately explaining the experimental results he considers established or otherwise worthy of theoretical consideration.

It's beyond me why this statement was taken out.

The most complete and tightly organized source of information on W-L theory is on the New Energy Times web site: http://www.newenergytimes.com/v2/sr/WL/WLTheory.shtml. Reading this material should convey some sense of the level of controversy in the field over theory. Krivit is in communication with all the major players. On that page there are many references to peer-reviewed publications, but I haven't gone over it to see if there is enough for us to report this in the article yet. There is a listing of "all" of the W-L papers, with links, at [16]. Certainly Storms thought W-L theory was bogus at the beginning of 2008. A detailed critique from Storms is available at [17].

While New Energy Times is problematic as a source, Krivit is, indeed, a full-time investigative journalist who is paid to research and report on the field, and he appears to do so with energy and accuracy. He's also quite opinionated, sometimes, so care should be exercised with regard to presenting science from NET as "fact" without corroboration. But if Krivit says that so-and-so said such-and-such, he seems to be as reliable or more reliable than an ordinary newspaper. This is now the place I go to find news on the field. I've never found an error in it, but sometimes he's making some point. His whole conversation with Garwin, in the issue cited above, left me with "So?" I.e., he seems to have been extrapolating from a non-conversation, a few words, to some conclusion, basically that Garwin hadn't specifically criticized W-L theory, but only made an off-hand comment implying some criticism, which would be expected from Garwin anyway. Garwin needs a cup of tea, apparently, in order to get started. --Abd (talk) 23:25, 25 May 2009 (UTC)

I've discussed this before, but the source of the problem just became apparent to me. There is a paragraph in the 2004 DoE report,[18]:

The hypothesis that excess energy production in electrolytic cells is due to low energy nuclear reactions was tested in some experiments by looking for D + D fusion reaction products, in particular 4He, normally produced in about 1 in 10^7 in hot D + D fusion reactions. Results reported in the review document purported to show that 4He was detected in five out of sixteen cases where electrolytic cells were reported to be producing excess heat. The detected 4He was typically very close to, but reportedly above background levels. This evidence was taken as convincing or somewhat convincing by some reviewers; for others the lack of consistency was an indication that the overall hypothesis was not justified. Contamination of apparatus or samples by air containing 4He was cited as one possible cause for false positive results in some measurements.

In our article, we have, "In the report presented to the DOE in 2004, 4He was detected in five out of sixteen cases where electrolytic cells were producing excess heat." I'd looked before to find the material in the McKubre report on which this was based, since there is much stronger evidence in the McKubre report than that on the correlation of excess heat and helium: the phrase above, if correct, would actually be strong evidence against correlation.

I found the source. It's a description of the Case experiments, and one reviewer considers it with this language:

Another class of experiments are referenced for the production of “excess heat” which do not involve electrolysis. The first of these is the Case experiments. Platinum group metals are loaded onto carbon substrates, 0.5 - 1.0 %. The excess heat is only observed with this low loading of platinum metals. This implies that carbon is involved in the effect. Six of 16 cells show excess heat. Four or five show helium excess as well. The most conventional explanation is that the carbon has adsorbed gases from the air, oxygen and helium. Oxygen combines with the deuterium to produce heat and helium is released on heating. The authors attempted to discredit this explanation by asserting that the container was helium leak tight. Presumably this was based on the ability to hold hydrogen. I don't see how the apparatus could be guaranteed leak-tight without a helium leak check. [the individual reviewer comments are accessible at http://www.lenr-canr.org/acrobat/DOEusdepartme.pdf )

These were not electrolytic cells, for starters, as the reviewer notes. They are gas-loaded cells, which produce excess heat with no power input, similar to Arata's work. There were not sixteen cells producing excess heat, at least not as shown in the report. The report actually doesn't state how many produced excess heat. McKubre's interest in this part of the report is behavior of He4 over time, the temporal correlation, not the quantitative one, which is covered in the earlier part of the report, this is Appendix B. One cell only, cell SC2 has excess heat and He4 data reported by time. So not only did the DoE bureaucrat summarizing the reviewer comments get this one wrong, based on misreading the reviewer's report, the reviewer apparently got it wrong as well, misreading the McKubre paper. The reviewer also seems to have ignored chunks of the report, raising questions which are answered in it, but that's a separate problem, and this kind of obtuse response seems common in this field. I just saw a blog by a physicist on the CBS special and it was totally derisive, with him asking why they weren't looking for helium. The CBS special was twenty minutes and that physicist could easily have done his own research and would have found that, indeed, "they" have been looking for, and have found, helium, in just the right quantities to explain the excess heat from d-d fusion, which doesn't prove that the reaction is d-d fusion, but it makes it rather look like it! Note that with these Case cells, the helium level rose as high as double background, so "leakage" starts to look a tad weak.

Meanwhile, we should be reporting secondary source review of these experiments, setting aside obvious errors like that above, and both Storms and He Jing-tang, if nothing else, do look at correlation, and the correlation is very strong. (Both He Jing-tang and Storms reproduce McKubre's single-cell plot of Case energy vs He4.) Storms gives, however, much more information than that. He Jing-tang presents some astonishing results from Arata, if I read them right. I'd want to confirm this with the original Arata report. Yes. ( http://www.lenr-canr.org/acrobat/ArataYdevelopmena.pdf ). Arata claimed 100 ppm helium generation from D2 gas-loading nanoparticle palladium, stimulated by "laser welding." Air background is 5.2 ppm. "The data for a corresponding study using pure H2 with a Pd sample powder showed no generated 4He." This was presented at ICCF10, August, 2003. Arata's work has been published in peer-reviewed journals in Japan, it may be tricky to find the papers. "Close to background," my eye.) --Abd (talk) 02:22, 26 May 2009 (UTC)

Based on what I read from Kirk, I have three quick comments. The first is that correlation is only valid (given that it is unable to show a causal relationship, anyway) if you can show that the two data sets being correlated are accurate. Kirk has raised strong objections to the measurements of excess heat. Therefore if there is reason to doubt that heat was generated (or, indeed, that helium was produced) then any claims of correlation are effectively meaningless until the doubts can be removed. The second is that background levels of helium are, or so I gather, 5.2 parts per million. If that's the case, double that level would seem to be within standard variance, as per Kirk. At least the Arata findings are a tad under 20 times the background level, which still may not be convincing, but may be more interesting. But my third point is what are you trying to say? That you believe the DOE made an error based on your reading of McKubre's report? So we should ...? I'm not sure how this relates to the article, given that excess heat and helium production are both mentioned. - Bilby (talk) 03:32, 26 May 2009 (UTC)

Correlation doesn't exactly show causal relationship (for starters, which of two effects is cause and which is effect?). However, what it shows, done properly, is common cause. The analysis Bilby gives is dead wrong. No, double the level isn't within standard variance. The charts involved show standard error bars. Measurement accuracy is well below the background level.

The errors in the DoE summary are blatant. Unless there is something I've missed! (i.e., some other helium result that was 5 out of 16.) These were not electrolysis experiments, period, the reviewer got that absolutely right, this error was only in the summary.

Mention of excess heat and helium isn't mention of a correlation. Correlation is, in fact, the strongest evidence for cold fusion. The big complaint in 1989 was lack of evidence for nuclear ash. That complaint was echoed in 2004, even though they had evidence in front of them; the summary shows that the evidence wasn't clearly seen and understood, though some reviewers did understand it (this is the evidence the summary calls "somewhat convincing," a view reportedly held by one-third of the panel). Our article, on helium "associated" with excess heat, is clearly wrong, the supposed results aren't in the McKubre paper that the panel was considering. I'd like to look at the other Case work published by SRI elsewhere to verify details, though. So the immediate relevance is that our article needs to be fixed to make it true to source, the ultimate source that is being cited by the anonymous summary of the DoE review. We are not condemned to repeat errors found in a secondary source.

Now, as to correlation. The Case experiments weren't presented to show correlation in multiple experiments, only one experiment was shown to show time correlation of excess heat and helium level. Note that these cells were studied in pairs, a cell with presumed active material and one without. But the presentation of data on this in the McKubre paper is scanty, I'd certainly want to know more.

Storms has a better presentation of the heat/helium data, from the more extensive Miles work. For thinking about this, in a way that is, at least, similar to the actual data, suppose there are 33 cold fusion Pd/D electrolysis cells. They are all operated in the same way. At the conclusion of the electrolysis, the cells are sent to an independent lab for helium analysis. 15 of them show no helium, 18 do. Also of the 33 cells, 21 show excess heat, 12 do not.

That's uncorrelated data, and it certainly does not look convincing. The helium could be due to leaks. The excess heat could be due to calorimetry error.

Now the correlation: the 12 cells that showed no excess heat also showed no helium. Of the 21 cells that showed excess heat, 18 showed helium. Storms notes reasons to suspect the remaining three cells as being different, one he ascribes to an error in heat measurement, the other two were a different alloy electrode, and there are always little mysteries like this.

The absence of helium from the cells showing no excess heat is stunning. Now, if the excess heat were at a level that it could compromise the integrity of the cells, that could cause leakage, but it wasn't. Absent a reasonably hypothesis for common cause, this is strong evidence, and it is evidence that the calorimetry is at least qualitatively accurate, and that the helium measurements are likewise.

However, there is more. The correlation is also quantitative. In other experiments, as well as with those Miles experiments, the quantity of helium detected correlates with the amount of excess heat determined from the calorimetry. So, again, what we have is evidence that whatever is causing excess heat is also causing helium to be found. Storms gives the figure of 25 +/- 5 MeV/He4. McKubre gives a more direct estimate of a bit over 30 MeV/He4, I forget the figure, but Storms has apparently done more analysis on the issue of missing helium (helium absorbed by the palladium and not recovered for measurement, and helium lost in other ways. (Note that any lost helium will raise the calculated energy/He4. Likewise any other pathways or causes of excess heat findings.)

So: We have strong evidence for excess heat, and we have strong evidence for helium associated with it. There is controversy about the exact level of energy/He4, Krivit, in particular, challenges the McKubre and Storms estimates, but Krivit, I'll note, is a journalist, not a scientist. He's quite good on reporting what the people have been doing, the best available. On the science, he's more knowledgeable than your average Wikipedia editor, for sure, but not necessarily than the scientists involved. But, at this point, for those who haven't followed all this, the figure of excess energy/He4 is significant because d+d fusion would generate He4 at 23.8 MeV/He4. That doesn't prove that the reaction is d+d fusion, and simple d+d fusion would be expected, for reasons our article should clearly show, to involve gamma emission to conserve momentum, but 4d fusion to form Be8 -> 2 He4, same energy figure, solves that problem, there is no need for gammas and they wouldn't be expected. What would, in fact, be expected is X-radiation from deacceleration of the alpha particles in the electrolyte or in the electrode, and that radiation has been amply reported. Classic technique: piece of protected X-ray film that, when developed, shows an outline of the electrode.

Storms covers all this, I believe, and is a reliable secondary source, we need look for no more, the Sheldon review confirms the reliability, and we aren't likely to find better in the near future, aside from possible magazine coverage here and there, nothing with the depth of Storms. We have no reliable source on the "scientific consensus" at this time that isn't passing mention based on no stated evidence, but I do assume that the general opinion of rejection is still more or less accurate. I've been talking to a lot of scientists on this, and the normal first reaction is rejection based on 1989. However, when they hear about the recent results, that changes rather easily. "I'll have to look that up. If that's true, there definitely is something there." (This is usually regarding the neutron findings of Mosier-Boss.) The ACS Sourcebook will be useful, but is actually, for the most part, a compendium of primary sources; the effect of it is to show notability of those sources, for they were selected for importance, and inclusion decisions there are a form of peer review. There is, however, some summary review there, though, in particular one written by Krivit that I'm looking forward to seeing in print. Storms, for this field, right now, is the gold standard for secondary source, much better and deeper than the McKubre report presented to the DoE. --Abd (talk) 15:04, 26 May 2009 (UTC)

I must admit, I do wish that you would try and keep your replies to a manageable length, given that most of this has been said, by you, multiple times in your comments. But that aside:

• First, "Correlation doesn't exactly show causal relationship" - no. Correlation doesn't show causal relationship. At most, it provides evidence, or hints - nothing more. This is a basic rule in any stats, and to suggest otherwise is problematic. If it didn't then I'd gladly join the Pastafarians in blaming global warming on the decrease in the pirate population.
• Second, you're using very poor evidence to base these claims. If we can't regard the amount of energy produced as reliable (per Kirk), and if we can't trust the amount of helium (as a result of potential leakage) then we have no basis to claim correlation. It is irrelevant if the two values are in keeping with fusion if we can't trust the values in the first place.
• Third, I care little if you agree with the second point, as I suspect the answer is no. What I do care about is that you still haven't addressed the core issue: what are you trying to say in terms of this article? Is it that you have decided that the DOE report was wrong, and can't be considered reliable? That Storms is better than the DOE, so one should be replaced with the other? Or are you just trying to argue that cold fusion really happens? Based on your comments, what is it that you want done? - Bilby (talk) 15:40, 26 May 2009 (UTC)

At this point, I'd prefer to be either making edits to the article, or rewriting it. Correlation, when strong, shows common cause. When weak, it might be chance. That's why statistical analysis is used with correlation, but, in fact, we don't know bleep about cause except through correlation analysis. If there were correlation between the decrease in pirate population and global warming, such that there were 33 experiments -- intervals without cherry-picking -- showing what has been shown with excess heat and helium, I'd be moving for the health of pirates. Or preparing for global warming. But there isn't. Further, there is no even preposterous causal connection, such that we might expect that increasing pirate population would reduce global warming ... no, strike that. If pirate activity became so high that global commerce would decline, global warming might! With excess heat and helium, there is a reasonable explanation, a causal connection, a theorized common cause, one that has not been rejected out of hand by major theorists (such as Edward Teller, but considered possible even if unlikely.

Second, it's not necessary for the measurements in correlation analysis to be reliable in an absolute sense. We use correlation analysis, in fact, to judge measurement reliability! Note that the measurement error in the calorimetry experiments is way below the detected levels, the calorimetry is accurate enough to discover some level of apparent excess heat from Pons-Fleischmann cells using ordinary water, probably due to the presence of deuterium in ordinary water, the levels are about right for that. Shanahan proposes that there is some heat distribution effect that causes a systematic error, which is a reasonable hypothesis deserving of test, though it's difficult to imagine that this affects all kinds of calorimetry. For example, it's hard to see how this would affect the Case results, which involve no electrolysis, so no energy input, only the very limited heat of formation of palladium deuteride. (Same with Arata). If the calorimetry were all over the map, varying wildly regardless of the existence or non-existence of the P-F effect, then we'd expect that this would not correlate with helium measurements, unless there is some common cause. As an extreme example of common cause, a lab assistant adds helium to the cells secretly, in an amount proportional to the heat that has been observed, and only to those cells. If the cells with no helium were only operated for a short time because no excess heat was being observed, then we could theorize that there was more helium in the excess heat cells because they were operated for longer. I don't think that's the case with these experiments.

Plus, leakage as a hypothesis doesn't cut it when the helium has gone above background, as it often has in this work.

What I've been saying is that we come to trust experimental values when they are correlated. Lots of scientific work is done, conclusions drawn, and huge amounts of money spent, with correlations far below what is seen with excess heat and helium. Mills estimates the possibility that the correlation between excess heat and helium in his experiments was one in 750,000. I could do the math, so could many other editors. But we have reliable source on it, folks. Storms. He's reviewing Mills' work, and published by an independent, non-fringe publisher. In 1995, Hoffman, a skeptic, wrote (see the article bibliography), as a conclusion on the issue of cold fusion calorimetry: In general, these heat measurements are being done by very knowledgeable experimenters who know how to avoid artifacts. As to the helium, the helium for Mills was measured by an independent laboratory, blind. In other words, it was measured by experts who knew how to measure helium and who had no idea of which cells were "supposed to" contain helium, no idea which cells had produced excess heat.

As to the third question, yes, we will change the article, because the statement we are citing from the DoE as if it were fact is blatantly, from the primary or secondary source (it's some of both) that the DoE used, false. That was inserted there by an editor who was removing text from a reliable secondary source who understands the issues and the evidence, and who, quite obviously (from extensive discussion) has no understanding of what "association" means.

I am not trying to argue that cold fusion happens. That's not my business, nor is it our business. Our business, or, more accurately, our technique, is to report what's in reliable sources. However, we might indeed ask what the purpose of knowledge is. Is all knowledge secondary and relative? Does truth matter? I think sometimes we put the cart before the horse. Consensus is the most reliable guide to truth that we have, and, in particular, the consensus of the knowledgeable. But that's circular, if we don't have objective standards for "knowledgeable." We use technically reliable source because we have no choice, we have nothing more reliable, our own original research and our own individual thinking being inadequate and too much subject to error, unless we can find consensus on it after full deliberation. But if our goal isn't truth, i.e., knowledge that we can stand on, that will carry our weight and guide us, and not deceive us and our readers and set us up for a fall, we've lost our way and we end up wikilawyering trivia. --Abd (talk) 16:56, 26 May 2009 (UTC)

We're not going to agree in regard to the correlation, but that's fine. Now that I know where you're heading it is probably irrelevant anyway. To refer to the general principle first, no, on Wikipedia truth does not matter. We rely on verifiability, not truth, and I would be inclined to argue that WP:V is the most important of Wikipedia's policies. I can't see how the project could function without this basic distinction. It is also worth noting that consensus isn't a guide to truth - at best, consensus leads to what people agree to be true, not what actually is (unless you wish to take a constructivist stance, which wouldn't be in keeping with your other comments).

But as I understand it, you, based on your reading, believe that the DOE report is unreliable and should be discarded in favour of Storms. That sounds a tad like WP:OR, but I think OR is bandied around a bit too easily here, so I'm not inclined to assume it is. However, the DOE report does seem to have a higher standard of reliability than Storms, so I suspect you'll have trouble getting much traction with this. Perhaps there is a reliable source that draws the same conclusion as you do about the DOE? - Bilby (talk) 17:46, 26 May 2009 (UTC)

First point: I would rather have no text than misleading text based on reliable source error. You are incorrect about consensus. First of all, I didn't state that consensus was truth. It isn't. Rather, it is our guide to collective truth, more reliable than individual opinion. It can be wrong. Look, this is a question that is well over a thousand years old, it's the issue of ijma in Islam. We have no way of judging NPOV other than consensus, there is no way to guarantee NPOV by following the letter of the law, it's a matter of individual judgment, applied collectively. The question of what to do if one has special knowledge that leads to an opinion at variance with general consensus or even universal consensus (except for oneself) was also faced: properly, you act in matters that only affect yourself according to your own best understanding, and you act in matters of social concern according to the consensus. Practically speaking, when push comes to shove, it comes down to sovereignty and what can be done without disruption (fitna).

To bring it home, what matters it if I improve an article, if everyone ends up arguing endlessly about it? It better be good!

The point is that it is more likely that the consensus is right, generally, than that I'm right, and I should be very sure of my own special knowledge before I would sensibly dare to step outside the consensus. I can know this by looking at others who are very sure of themselves, and I can see how they went astray -- but they can't. Since I'm also human, it's probably true of me as well.

Here, you may find me sometimes opposing majorities, but only when I expect, from knowledge and experience and perhaps even intuition, that, with sufficient attention, the consensus, or at least the majority, will support me, or will find some compromise that I can accept. I saw this happen at ArbComm recently.

Second point: I do not favor discarding the DoE report. It's highly notable. It also contains at least one blatant error, I pointed it out above. Compared to an ordinary peer-reviewed secondary source, however, it is flawed. The nine individual reviews written on the basis of study of the sources provided are quite important, but they aren't edited or reviewed, themselves. The nine reviews written on the basis of a one-day seminar seem to be of varying quality and depth, and nobody familiar with this field is likely to expect that a one-day seminar is going to drastically change anyone's mind, ideas are way too deeply entrenched. Then there is the summary, which was written by someone anonymous, and some editors here have placed great weight on what may have been mere obitur dictum in it, a gross summarisation meaning one thing and being given another meaning by us, by implication. Given all that, nevertheless, it is an historic event in itself, it would be totally silly to discard it. Storms is, quite simply, different. Storms has probably been fact-checked more thoroughly. I think that what must be realized is that Storms, as a secondary source, acts like a filter. The citation in Storms of a paper, including conference papers and even private communications, is prima facie evidence of notability, it isn't merely about verifiability. V doesn't appear to understand this well. That such and such an experimental result is reported by so-and-so meets WP:V from being published in conference proceedings, and we can sometimes use such a source with consensus. But those are primary sources, and inclusion in the proceedings is weak evidence of notability. That's what we need secondary sources for, some source that judges the importance of primary information.

And then there is the fact that relative reliability of sources doesn't come into play until and unless there is contradiction. Contradiction is much more rare than many of us might think. Where contradiction is commonly seen isn't in reliable sources, especially the peer-reviewed scientific kind of primary sources, but in interpretation of sources, and even more in the imaginations of editors. There is no contradiction between the negative replications of excess heat findings in 1989 and the positive replications from 1989-date. The experimental conditions were different. As I said, contradiction is rare. An example of alleged contradiction: MIT reported finding no excess heat. It was noticed by Eugene Mallove that the published chart had an offset that concealed the original data. For this reason you can find cold fusion researchers asserting that the MIT data was altered to present an appearance of negative replication. That's a contradiction that would require balancing the reliability of one source against that of another. Otherwise reliable source is reliable source. --Abd (talk) 19:22, 26 May 2009 (UTC)

About DOE 2004: since the error is blatant, it can be reasonably expected that other RS have noticed the error and talked about it. Where are those sources? I also expect to see other RS talking how DOE chose an unreliable way to analyze the evidence, or about how DOE is less reliable than X or Y. Where are those sources? --Enric Naval (talk) 00:36, 27 May 2009 (UTC)

You know, I'd read quite a bit about this review and hadn't noticed any mention of this. Cold fusion researchers have had a lot to say about the review, to be sure, but this particular error wasn't noticed, as far as I've seen. I didn't see it when I first looked, I remember being confused by aspects of the Case presentation in McKubre -- it was hard to read the graphs to get at what they were saying, and I misinterpreted it myself the first time -- so I don't know. The DoE review isn't a peer-reviewed paper, it is, rather a document with intrinsic notability. It had a purpose, which was not scientific accuracy, it was to make possible funding recommendations. Quite simply, it was what it was. Compare that with the IPCC documents on global warming, where great care was exercised with every aspect. No comparison at all! --Abd (talk) 04:06, 27 May 2009 (UTC)

So, no sources? no mainstream sources? The errors and unreliability of DOE 2004 can only be sourced from cold fusion researchers? --Enric Naval (talk) 16:10, 27 May 2009 (UTC)

Read the summary below, Enric. It was already said above, and what is below was added before your edit, but .... the only sources necessary to show the error are available from the DoE archive. The DoE report was a comment, explicitly, on what was in the document submitted by "cold fusion researchers," yes. Isn't that the point? The DoE report includes that paper as Appendix 1. So the unreliability, if you want to call it that -- I didn't -- of DOE 2004 is shown by DOE 2004, very simply. It isn't necessary to see the individual reviewer papers, but if you want to understand what happened, you'd want to look at them. And this continual rejection of sources because they are associated with cold fusion researchers, in any way, even when simply providing convenient access to public documents, even if just for background, to help understand our more reliable sources, is characteristic of POV-pushing in this field. Stop it. --Abd (talk) 17:02, 27 May 2009 (UTC)

If the only sources saying that DOE 2004 has errors/ is unreliable are from cold fusion researchers, then it has to be attributed as a POV hold by them. --Enric Naval (talk) 20:32, 27 May 2009 (UTC)

Enric, you present an impoverished idea of what Wikipedia editors can and should do. We do not report demonstrably false information as fact just because a reliable source says it, unless we balance it. We can and should balance secondary source error with primary source fact. The requirement is that the primary source facts reported should be directly verifiable without synthesis, by any ordinary person with ordinary skill applying reasonable effort. First of all, it's worth reading WP:OR over carefully. Then look at the essay linked from the WP:OR page, WP:NOTOR. See, specifically, this example:

A book, short story, film, or other work of fiction is a primary source for any article or topic regarding that work. Anything that can be observed by a reasonable person simply by reading the work itself, without interpretation, is not original research, but is reliance upon a primary source. This would include direct quotes or non interpretative summaries, publication dates, and any other patent information that can be observed from the work. For example, if there are multiple versions of a particular story, and one version does not have a particular character, or has extra characters, that is clear simply by reading or watching the work. The fact that one would have to read or watch the whole thing does not make the matter original research. The work is verifiable, even if it takes more time than flipping to a single page.

Notice that the example is quite on point here: After reporting what the DoE report says is claimed in the review document about the sixteen samples, 'blah blah.' we could say, "The Hagelstein paper, which was the review document, does not contain a report of 'blah blah.' However, it does contain 'bleep bleep.'" And there is probably more than we can say; there is some criticism of the 2004 report in reliable source, if I'm correct. This tidbit, however, requires no source other than the 2004 DoE material.

Notice also that we probably cannot report, for example, that "The 2004 DoE report erroneously interpreted the review document," unless we have secondary source on that. What we properly do is to present the elements of the (alleged) contradiction, without claiming contradiction, reliably sourced, and let the reader form his or her own conclusion. The elements are directly verifiable. The conclusion isn't. --Abd (talk) 22:55, 27 May 2009 (UTC)

Our article has, in Coldfusion#Reports of nuclear products in association with excess heat, no report of association of nuclear products in association with excess heat, except for this: In the report presented to the DOE in 2004, 4He was detected in five out of sixteen cases where electrolytic cells were producing excess heat.[78] The note cites the summary review, but the text attributes to the report itself, which is available. This, on the face, appears to show association, though a very weak one, without the information that would allow the association to be judged. I.e, with two variables (how much helium was detected and how much excess heat was detected), there are four gross categories of association: heat and excess helium, no heat and no excess helium, no heat and excess helium, and heat and no excess helium. What is implied in the sentence is 5 cases of heat and helium, and an implication of 11 cases of heat and no helium, and no indication of how many cases there were of the other two categories. (i.e., we don't know, from our text, how many cells were tested for heat and helium.) As presented, the information is singularly weak, reading this, I'd say, my conclusion would be that helium and excess heat were not related.

This is what is in the actual summary report: Results reported in the review document purported to show that 4He was detected in five out of sixteen cases where electrolytic cells were reported to be producing excess heat.[19] This is a citation or interpretation of the review document. Now, is that information actually in the review document? It is not. What we are quoting as fact (that the review document "purports to show" the information) is verifiably false.

What is in the review document?

interjection by Kirk Shanahan, interrupting comment by Abd, which resumes below next full-left smalltext note

Examining Figure 12 and surrounding text in the review document indicates that 5 out of 16 of the samples showed He signals. The reviewer, while not 'quoting' anything in text in the review, correctly interprets Figure 12. Kirk shanahan (talk) 18:24, 27 May 2009 (UTC)

Actually, no, Kirk, so you must have missed it too. There is nothing in the text of the Hagelstein paper or in the figure, that indicates that the 16 cases were cells "producing excess heat," as the summary stated. Heat data is only shown for one of the sixteen cells, cell SC2. The experimental setup is also described in what may be the first report of this work, the charts are there, available at http://www.lenr-canr.org/acrobat/McKubreMCHtheemergen.pdf

Now, by "reviewer" did you mean the DoE bureaucrat, who wrote the erroneous report quoted above, or did you mean the expert member of the panel? This is Review #6. That member wrote:

Another class of experiments are referenced for the production of “excess heat” which do not involve electrolysis. The first of these is the Case experiments. Platinum group metals are loaded onto carbon substrates, 0.5 - 1.0 %. The excess heat is only observed with this low loading of platinum metals. This implies that carbon is involved in the effect. Six of 16 cells show excess heat. Four or five show helium excess as well.

This expert did correctly state that these were not electrolytic experiments, but differently misstated the heat results, apparently making an assumption about it, that all six cells charted for helium showed excess heat. No wonder he concluded that there wasn't any association shown! I.e, there was excess heat and no helium, as with cell SC3.1? Or very low helium, as with cell SC1. But nowhere does the text state that SC3.1 or SC1 showed excess heat, nor does the chart show that. Excess heat data is only shown for cell SC2, in Figure 13. Why only that one? Beats me. I'd want to know all the results for all the cells. We have that kind of data from Miles, I believe. --Abd (talk) 04:24, 28 May 2009 (UTC)

I see that you have noted this, and that the reviewer has misidentified the Case-type cells as electrolytic. Personally, this is not really a significant error, as the question is whether there is conclusive proof of He being generated, wherever that might have been. As I have noted however, the plots are bogus because we can't trust the measurements. This is why I tried to get included in the 2004 DOE review, but the powers that be didn't see my point I guess. Also of note is the direct ommission of the Clarke paper I comment on in the next section. This is more CFer obsfucation. McK knew intimately what Clarke et al had written. He _choose_ to exclude it from the presentation to the reviewers. I wonder why? Kirk shanahan (talk) 18:33, 27 May 2009 (UTC)

As I note below, the Clarke paper is not omitted, that's a gross error on your part. It's cited. I think it was discounted because it had nothing to do with this work, but, for sure, that's speculation, and if you have better information, by all means, let me know. But this is about people and how they behave, not experiments and what they showed.

(Folks, you should be looking at the charts in the Hagelstein paper from our article's bibliography.[20], figures 12 and 13.)

The error of the DoE reviewer (the summarizer) was major. The error of the panel expert was just as bad, because that expert should have recognized the problem. The Case evidence is weak (Miles is much stronger, and Miles' work was submitted to the DoE as part of the documentation package). (Storms presents all this much better, in his 2007 book, but that research was all done long before.) In my opinion, the team of researchers did a poor job of presenting the evidence to the DoE. The evidence is there, particularly in the complete package of papers, but presented in such a way that if a reviewer wasn't very careful -- some apparently were careful -- they'd miss critical points or become confused, as what I've found, here, shows. From other research, the correlation between excess heat and helium is strong, and so, from the helium measurments, I'd suspect that three or four of the six charted cells showed significant excess heat. The cells with a sharp rise are very likely, the long-term, slow rise could be leak and would thus would be expected (again, based on other results) to show little or no excess heat.... but if not a leak, the excess heat would be perhaps half of what was found with the really active cells. No, I'm not assuming a result to prove a result. If, however, it was not as I'm speculating, then McKubre would indeed be guilty of "obfuscation," actually, of a kind of fraud. If it were true as the panel member quoted above wrote, then to claim these results as evidence of strong correlation between excess heat and helium would be deceptive, cherry-picking of data. I don't think so. --Abd (talk) 04:24, 28 May 2009 (UTC)

original comment by Abd resumes:

Page 7 of the review document has a section on Helium and Excess heat. There is a subsection titled "Correlation of Excess Heat and Helium." This section discusses the work of a number of experimental groups, and includes analysis of the "Q value," i.e, how much heat is associated with each atom of helium found. This is work that is fundamental to both evidence for cold fusion and to the consideration of theories. There is no mention in this section of "sixteen cases." The section does, however, refer to Appendix B for some further discussion of helium and excess heat.

There is a mention of sixteen cells that Appendix, page 18, a report of a study of Case cells in which 4He was found. Just to start with, these are not electrolytic cells. Secondly, the total number of cells was sixteen. The total number of cells for which helium measurements were reported was six. One of these is flat, at zero ppm, leaving five which show any helium at all. One of the five shows very low helium, not exceeding roughly 1 ppm. One shows a slow rise to about 4 ppm. Three show sharp rises of helium levels, crossing the background level of about 5.2 ppm with no sign of slowing down, until reaching, for one cell, almost 11 ppm. This is the only cell for which excess heat is reported, in a chart on figure 13 on page 21. As far as we know from this appendix, excess heat was only found in one cell, though that is unlikely to be true. I'll return to that later, I believe there is a more thorough report on this work.

This appendix was not a report showing heat/helium correlation in more than one cell. The only reports showing correlation of excess heat and helium over multiple experimental runs were in the earlier section described above. The correlation is quantitative, at a level consistent with d + d -> He4 (or with 4d -> Be8 -> 2 He4).

So: the summary report is almost completely erroneous.

1. These were not electrolytic cells.
2. The review document doesn't show "sixteen cases where ... cells were reported to be producing excess heat." Where there is a reported set of sixteen measurements of helium, excess heat was reported for only one. The document isn't clear, but the purpose of this section was to report time correlation of heat and helium, and that was only done for one run.
3. Helium was found in five cells, but one of the five was at a very low level easily ascribed to contamination. And one of the remaining showed a very slow rise that did not reach background, and the data isn't reported for sufficient time to see if it would slow down as it approched background (as would be expected for leaks). So, truly, anomalous helium was only found in three cells. Not five.

The correlation of helium and excess heat is crucial, and the submitters of the review document knew this, and that's why they had a section dedicated to this. It appears that whoever summarized the document was distracted by the information in Appendix B, and misread it and then reported that. There was one individual reviewer report that made some of the mistakes made by the summarizer, but this merely helps us to understand how the summarizer came to make the mistake, being led part of the way there by the reviewer.

Without the correlation, or somehow overlooking it, the wonder would be that even one-third of the reviewers thought that the evidence for a nuclear explanation for the excess heat (that half thought was convincing) was "somewhat persuasive." That is, the reviewers did not generally make the same mistake as the summarizer.

Now, what do we do with this? Well, we don't quote the DoE summarizer as being what was in the review document, unless we also note that the information allegedly there wasn't. Which I prefer, because that piece of information (the error) is important in understanding subsequent events. The reviewer was a DoE official, and was, I'm sure, singularly unimpressed with the evidence, because the official didn't understand it, read it incorrectly." I would never say this in the article, but readers can come to conclusions themselves, if we provide them with what's verifiable.

The statement in the summary report is notable, it's obvious that editors here have agreed on that. The actual review document is notable, for lots of reasons. This is all reliably sourced as released by the DoE. So we report both. And since the energy/helium ratio is considered the strongest evidence for fusion, with a specific mechanism, and we have Storms for that as well as other secondary sources, we present the real evidence that was shown to the DoE, the review of Miles' work as presented by them, or, better, by Storms.

I mention subsequent events. The DoE review recommended further research. So did the 1989 review. After 1989, the DoE rejected, apparently, all requests for funding of any research related to cold fusion, and this has been ascribed to the continued influence of Huizenga, who chaired the original panel and who has been a highly skeptical commentator on the field, putting out his own book that gives the most negative possible interpretation on every bit of the work. (But it is still a valuable resource, it is only his conclusions and framing that are problematic. It's like Taubes, which is a goldmine as well.) After 2004, a well-known cold fusion researcher submitted a request to do exactly the kind of work that the report recommended, a modest effort. It was denied without review, apparently. I think it's easy to see why this might have happened. The official who wrote the summary was asked about it, or is the one who made the decision. While in 1989 and 2004 the panels were reasonably neutral, the continued influence was entirely from the most skeptical side.

I have, above, refered to the report as the McKubre report. That was an error; McKubre was an author and was crucial in presenting it, but the paper is the Hagelstein paper, this theorist was the lead author, and that's how we have it in our bibliography. --Abd (talk) 16:00, 27 May 2009 (UTC)

Reference: “PRODUCTION OF 4He IN D2-LOADED PALLADIUM-CARBON CATALYST II”, W. BRIAN CLARKE, STANLEY J. BOS and BRIAN M. OLIVER FUSION SCIENCE AND TECHNOLOGY, VOL. 43, MAR. 2003, 250

It is of interest to look at some quotes from the referenced article in light of the supposed He-excess heat correlation that Abd is pushing so much. In the following I have clipped out some sections, which is indicated by {deletion}, for brevity. This article is the one I attempted to get into the Wiki article, but which has been removed from discussion, even though it still remains in the Bibliography. Note that Dr. M. McKubre heads the SRI effort in this field.

The Abstract

”Measurements of He, 3He/ 4He, Ne and 13 other components{deletion} in four samples of gas from SRI International (SRI) are reported. Three samples were collected from SRI Case-type stainless steel cells containing ~10 g of Pd/C catalyst initially loaded with ~3 atm D2 at ~200C, and the fourth sample (not identified) was stated to be a control. Case and the SRI researchers have claimed to observe 4He in concentrations of ~100 parts per million (ppm) and up to 11 ppm, respectively, produced in these cells via the fusion reaction D + D = 4He + 23.8 MeV. Others {note: ‘Others” being ‘these researchers’, i.e. Clarke, et al} found no evidence for 4He addition that cannot be readily explained by leaks from the atmosphere into the SRI cells. One sample appears to be identical in composition to air, and the other three have been seriously affected by leak(s) into and from the SRI cells. The rare gas “forensic” evidence includes 3He/ 4He ratios and He and Ne concentrations that are almost identical to air values. The samples also show high N2 (a primary indicator of air), low O2, and high CO and CO2 due to reaction of incoming atmospheric O2 with C in the catalyst. In two samples, the original D2 (or H2) has almost completely disappeared by outflow through the leak(s). These results have obvious implications concerning the validity of the excess 4He concentrations claimed by Case and the SRI researchers.”

Points made in the body:

He levels reported (ppm) 5.48, 6.52, 0.70, 5.30

N2 content of samples (mole %) 86.0, 89.1, 1.67, 78.4 (dry air = 78.1)

“1. All samples show high N2, which is a primary indicator of air.”

“2. Sample 46D is most probably room (or outside) air”

“After this technical note was submitted to Fusion Science and Technology, we received a communication from McKubre, who stated, inter alia, that sample 46D “was taken directly from a cylinder containing only deuterium gas with approximately 5 ppm helium-4 that we use to calibrate our mass spectrometer.” It is therefore very puzzling that this sample, except for slight additions of H2, D2, and CO2, was identical in composition to normal (dry) air.”

From the Summary:

“The results of our measurements show that after the Case-type cells at SRI were filled with hydrogen {deletion}, the following events probably occurred:

1. The hydrogen pressure in the cell decreased from ~3 to ~0.7 atm during the first few days. {deletion}

2. Incoming atmospheric O2 started to react with C in the Pd/C catalyst to produce CO and CO2, although the inflow rate of O2 was low during the first few days. Remaining hydrogen in the cell leaked outward and also reacted with O2 (aided by the catalyst) to form D2O and H2O. {deletion}”

“We note that two plots of helium concentrations versus time given by McKubre et al.(4) in fact show that the helium concentrations reach maximum values of 9 and 11 ppm at 20 and 27 days, respectively, and then appear to decrease slightly at later times. At the present time, we do not understand why the SRI maximum helium concentrations are a factor of ~2 higher than the atmospheric value of 5.2 ppm, although the observed increase must surely be due to unrecognized systematic error(s) in the SRI experiments.”

So, from the best CF researcher around we have four samples submitted that were all supposed to be primarily hydrogen with traces of helium in them, and experts in mass spectrometry instead find air. Yet, McKubre et al report He production via ‘cold fusion’.

Note also that a slow in-leak of air would provide O2 for the H2+O2 reaction, which produces heat. That heat would appear as excess heat.

Bottom line: If the He-heat correlation is to be placed in the Wiki article, then a summary of this information needs to be placed there as well, along with the commentary on the CCS, since the evidence is that the CFers don’t correctly measure either excess heat or He. If you can’t measure your X and Y properly, an accidental correlation arising from a plot cannot be considered real. Kirk shanahan (talk) 14:38, 27 May 2009 (UTC)

If you can’t measure your X and Y properly, an accidental correlation arising from a plot cannot be considered real.

Amen, hallelujah. I haven't read these sources and wouldn't have the physics background to evaluate where the consensus of reliable sources lies if I did read them; I leave it to more knowledgeable people to sort out the physics. But I do know statistics, and I've been reading the statistical assertions made in this discussion with increasing bemusement. Thanks for leaking some fresh air into the fog of obfuscating verbiage. Woonpton (talk) 16:05, 27 May 2009 (UTC)

Of course. Woonpton, there are a number of scientists who have been following the events here, and you might do us the favor of disclosing the source of your bemusement regarding statistics, there are quite a few of us who likewise understand that field.

Shanahan is correct, this information belongs in the article, if the Case work is reported, because it may be the most cogent recent criticism of the helium work. However, the Case work is actually the weakest work on this point, and was used in only one correlation study, of a single cell, as reported to the DoE. (But I haven't reviewed the original Case article.) The Case effect is actually an open mystery, and I'm not convinced that it should be in our article: what was important here was that distorted Case effect results were presented by the DoE summary as if this was the strong evidence of helium correlation presented, when it wasn't. On the Case effect, Storms, p.46:

After McKubre and co-workers reproduced the Case effect at SRI, I undertook to do the same. Jed Rothwell provided funds to build a system needed to purify the Case catalyst ... About a year was spent on this effort without seeing any ambiguous energy.

As is common in this field, the ability to make active material was lost. In this case, the drum of charcoal used by United Catalyst as the substrate was thrown out during cleanup, perhaps explaining why the catalyst they made later did not work. Because the unique characteristics required to make the material nuclear-active were not determined at the time, it is impossible to manufacture more active material according to known specifications.

We are left with two alternate hypotheses, both reasonable if we only look at the Case effect. One, there was experimental error of an unknown kind (or as hypothesized by the researchers whose work is cited above), or the effect is fragile and sometimes associated with unknown factors. There is no controversy over the latter, and it is also quite likely that some of the positive results were due to artifact. Even careful researchers make mistakes. To me, energy/He4 quantitative correlation, found over many experiments by different groups, with blind testing of the Helium in a significant part of the work (Miles, at least), is perhaps the strongest piece of evidence that the excess heat is real and that it is nuclear in origin.

I will allow this out-of-sequence interjection breaking up my post, by Shanahan. See the next full-left small-text below for the resumption of my post --Abd (talk) 18:30, 27 May 2009 (UTC)

No, three. (3) it was leaks, and the latter attempts somehow were done better, i.e. without leaks. Kirk shanahan (talk) 17:13, 27 May 2009 (UTC)

Sure. As noted, causes of results may vary from experiment to experiment. Note that the "latter attempts" were earlier, and that they include work from several other research groups. Further, leaks don't explain correlation. --Abd (talk) 18:30, 27 May 2009 (UTC)

P.S., You do understand that Krivit had a whole article in a recent NET that critiqued the idea that anyone has shown the 23.8 MeV number in their experiments right? Kirk shanahan (talk) 17:13, 27 May 2009 (UTC)

Yes, I do. Krivit is a bit obsessed about this, I've corresponded with him. I'd love to be able to use NET as a source, because it publishes material from all the major players, those discussions include comment from many well-known cold fusion researchers, and sometimes, critics.

Basically, nobody has found "23.8 MeV." That's the theoretical value for d-d fusion and would also be the same for 4d Be-8 intermediary fusion (i.e., you'd get, from the latter, two 23.8 MeV alpha particles). What has actually been claimed is that results are "consistent with" 23.8 MeV. I.e., 31-32 +/- 13 MeV/He-4 (McKubre), based on a single Case study, as far as I know, 24.8 +/- 2.5 MeV from a single SRI study reported by Hagelstein. Storms then claims that, by combining all measurements (he reports a lot of results using different units, i.e., He/watt-second, and I haven't done the conversion), he comes up with 25 +/- 5 MeV/He-4. His conclusion is "this value is consistent with d-d fusion being the source of energy and helium, other reactions may also be consistent...."

For detail, at [21] is a 2003 review of heat and He-4 papers by NET. [22] is the October 2008 issue of NET, with discussion of what Krivit titles the "24 MeV belief." --Abd (talk) 18:30, 27 May 2009 (UTC)

Resumption of my original post below --Abd (talk) 18:30, 27 May 2009 (UTC)

Criticism of cold fusion work has often been based on two claims: lack of "nuclear ash," i.e., reaction product, and lack of radiation expected to accompany fusion. Almost any radiation, though, would show a nuclear reaction, radiation doesn't ordinarily come from chemical reactions. Finding helium correlated with excess heat, however, validates both sets of measurements unless there is some reasonable hypothesis connecting both as errors with a common cause, it answers the nuclear ash objection, since it is the ash, and it also can answer the radiation question, since energetic alpha radiation transfers its energy to the environment as heat, and there are at least two proposed mechanisms which explain why the expected neutrons would be missing. (Contrary to the claims made about me, repeatedly, that I'm pushing hydrino theory, I prefer the Be8 hypothesis of Takahashi, which neatly predicts no neutrons but only alpha radiation at 23.8 MeV) Energetic alpha particles would be expected to generate X-radiation, and that is reported quite clearly and cleanly (X-ray film that forms an image of the electrode, an electrode that wasn't radioactive before the experiment). Further, there is direct evidence of energetic alphas, much of the SPAWAR work, peer-review published, is about that. In 2004, though, energy/helium correlation was the only widely-known clear evidence for nuclear origin, so that this evidence was missed by the review, to some degree, was of great historical importance.

Believe it or not, Woonpton, what I'm about here is writing an encyclopedia article, one which neutrally reports the whole story as found in sources meeting our standards. Doing that requires confronting certain common editorial assumptions based on widespread misinformation as to what is actually in the sources. Please remember that in January, when I came across some administrative abuse over related issues, I was skeptical about cold fusion, though dedicated to NPOV. My initial concern was pure process, administrators shouldn't be using their tools in the service of their POV, and it was quite clear to me that this had happened. It took months, but ArbComm validated this view and rejected or ignored claims that I was POV-pushing. I only developed a POV about cold fusion as a result of becoming familiar with what is in reliable sources, plus extensive discussions here. I've encountered, in the literature, many stories like my own: skeptics who, for some reason, were motivated to actually look at the sources instead of relying on knee-jerk assumptions. Robert Duncan (physicist) is only the most recent example.

And what is my POV? It is that claims that low energy nuclear reactions sometimes take place in the palladium deuteride system are reasonable and worthy of further investigation. Given that it took almost twenty years to find experimental techniques that reliably show the excess energy production, at low levels, it's quite possible that this will never be commercially practical for energy generation, hence I would only recommend, at this time, modest funding. This is exactly the same conclusion as the 2004 DoE report. I am not out on a limb, if my agreement with the conclusions of the DoE report (errors aside) is any sign, I'm right in the mainstream. It just looks different, to some, until they have seen what I've seen. And that is why we discuss and why we don't edit war; exceptions, for me, are rare and confined to some specific need, where asserting edits and compromising through edits rather than through more tedious discussion that goes nowhere is more efficient. Watch: you will see the results. If they don't toss me out of here first! Seems unlikely, at this point, but you never know. I can't do a thing without consensus, and I wouldn't want to. --Abd (talk) 16:55, 27 May 2009 (UTC)

Abd, you are not neutral. Your complete lack of understanding of the import of the Clarke work shows this. Let me be clear. At the same time McKubre was developing the data he presented to the 2004 DOE Review, he supplied 4 samples to Clarke, et al. McKubre expected and communicated that the samples were to be hydrogen with traces of He in them. Clarke, et al found air. This means McK had no idea what he was doing. And this is from 'the best' the field has to offer. That directly applies to the work presented at the 2004 DOE review. Net conclusion, we are in a fog of confusion, and the correct response to that is "we have no idea what is going on, but there's no compelling evidence for CF". However, you are unable to accept this because, somehow, you have transformed into a CF fanatic advocate, and anyone who reads what you write here can see that. Most of us don't like that. It leads to a POV'd article. Please stop. Go away if you have to. Kirk shanahan (talk) 17:22, 27 May 2009 (UTC)

I'm not neutral, I didn't claim to be neutral. I wrote that my goal is a neutral article. What I understand is largely irrelevant, the community will judge; however, I do understand the import, though I may interpret it differently. You should know, if you are a careful scientist, that a single report isn't proof of anything, least of all that a researcher you assert is "the best the field has to offer" (that's quite debatable, he's notable and he's respected, but "best" is a big word) had "no idea what he was doing." If I take your account as accurate, more likely, he received the results and had no time to make sense of them, if, indeed, any sense could be made. I wouldn't include last-minute news in a report to the DoE unless it was very, very solid. Sure, those results called into question the Case work, but how much they call it into question involves details that haven't been disclosed here. The Case work was very narrow, and not crucial to the DoE report (that's why it was in an appendix, not in the main body); indeed, in hindsight, that report might have been more effective if it hadn't been added, because it clearly confused at least one person involved. The Clarke results were so far from what he'd found that it was very reasonable for him to suspect something odd had happened. I'll see what reports and claims there are on the circumstances, what follow-up there is, and report in a separate section. --Abd (talk) 21:42, 27 May 2009 (UTC)

Kirk, what of the possibility that Clarke mishandled the samples? Or if the sample vials(?) were defective and leaked during transport? V (talk) 20:05, 27 May 2009 (UTC)

Doesn't matter. May be entirely possible. However, data that was supposed to verify claims has contradicted them. Net result is "No conclusion can be drawn." But note however, that Clarke's work is an order of magnitude more thorough than McKubre's, AND represents what a scientist should do when conducting trace analysis. I have said the same thing about Little's work on 'transmutation products', and another example is Indian study on Bockris' carbon arc experiments. Bottom line, all the chemical measurements being made in this field are at trace level, and the CFers have never established they can and do (note, this means _every time_) do the job adequately. Therefore, the tendency is to trust Clarke over McKubre, but as I said that is not necessary, as the point was to 'prove' CF, and that didn't happen. Kirk shanahan (talk) 20:33, 27 May 2009 (UTC)

Thanks, Kirk. I was thinking of saying something along the lines of what Abd wrote in his second paragraph below, but since he's already done it.... I WILL say that your 3rd sentence is a bit "off". A vial of gas is not "data", although data would be obtainable from it. V (talk) 22:08, 27 May 2009 (UTC)

Do you really not undersand English? I wrote: "data that was supposed to verify claims has contradicted them". That's exactly what I meant to say, and it true. The data from the Clarke, Bos, and Oliver paper repudiates McKubre, et al's claims. How clearer can I be? (You bias is showing I think...) Kirk shanahan (talk) 11:50, 28 May 2009 (UTC)

It does matter. It's not an issue of trusting one researcher over another. Shanahan is stepping outside normal scientific protocol here, and his mention of this a sign of his attachment; the standard is to, by default, trust all the reports, which reflects the common-law principle that testimony is presumed true unless controverted. Experimental reports are just that, and we trust them. We assume that what they report is what was observed. So I assume that Clarke is reporting his expert analysis of what his techniques and instruments showed. You have done the same with calorimetry, by the way. You claim that excess heat is the result of an unknown surface effect that causes local heating, causing calibration constant shift. You claim that the experimental reports either show this or are consistent with this, which means that you are trusting the experimental results and are merely proposing an alternate explanation of them.

Let's clarify first. The 'it' that does or doesn't matter is the possibility that Clarke, et al, messed up their analyses. So, exactly how is it 'stepping outside of scientific protocol' to say: "yes they might have, but the fact that they produced an excellent paper describing their work _and_ have the reputation to back it up, leads to a conclusion that we can't draw a conclusion."? They are not junk researchers, their work looks good, and, in fact, better than SRI's and any other CFer, and you want me to ignore it? Whose not being scientific now?? My conclusion is not wild or 'over-the-top', it is what is expected when a careful, detailed report is made presenting results that demonstrate an ongoing concern is still a problem. I simply ask those making the claims that are under question (CF produced He) to 'show their work', and to replicate. SOP for scientific protocol. I will note your comment is another ad hominem ("Shanahan doesn't follow scientific protocol") made on no basis other than you don't seem to like the implications of what I wrote.

P.S. The standard is *not* to trust every report. All real scientisits know lots of garbage gets published everyday. _Everything_ that is published is questioned at some level. Science isn't the law, and publishing is a 'request for comment' from the general community. Why would you need that if it were true? I don't know where you think you learned sciecne V, but go back and do it over! (And the rest of the paragraph about how I do what you claim is equally off base.) Kirk shanahan (talk) 11:35, 28 May 2009 (UTC)

Researchers have limited resources. It's easy to say that a researcher should have done this or that, but this or that may be expensive, not allowed by the budget or not possible with the research time available. Researchers report what results they have, balancing the need for more data -- there is almost always a need for more data -- with the need to communicate, so that others can become involved with analysis and confirmation, and, as well, so that they can receive credit for what they have done.

Shanahan still does not seem to face the issue and power of correlation. We'll be examining that in more detail, it's a fundamental issue that bypasses the objections about measurement accuracy. In the meantime, however, we should note that the charts in the Hagelstein report do show error bars, and that the effects are not buried in the noise, and are confirmed with multiple measurements or experiments, and the heat/helium correlation is roughly confirmed by all the work that's been done on it. (We have no data, to my knowledge, on the heat generated from the cells from the Case report.) Note that Krivit, in what Kirk referred to about the 23.8 MeV/He-4 "myth," is claiming that one report, based on his own original analysis of it, shows 16 MeV/He-4, instead of the figures from other reports that were above the 24 MeV level (loss of helium, expected, will cause the measured and calculated MeV/He-4 to be above the actual reaction value). This is still quite close to the prediction for d-d fusion, when earlier criticism claimed that nuclear phenomena were many orders of magnitude -- very large numbers -- out of whack from theoretical predictions. Being within a factor of two is quite strong a result, in fact! --Abd (talk) 22:01, 27 May 2009 (UTC)

Ummmm, Abd, the whole point of CCS is to extend the range of the error bars, so that data only a short distance outside them can instead be encompassed by them. Kirk is right in that the MATH is plausible, but as for the rationale for a mechanism...well, I want to see evidence for CCS in experiments designed to find it! And there is one other "tiny" thing...to the extent that a CF researcher was able to claim a tiny detection of excess heat, proportionate to natural deuterium level, using ordinary water in the electrolyte of a CF "control" experiment -- well, any calorimeter that can detect that, then when re-used in a heavy-water CF experiment (that's 6500 times as much deuterium as before)...that calorimeter's error bars SHOULD be far far below the level of measurable excess heat, such that not even CCS could expect to explain it away. V (talk) 22:17, 27 May 2009 (UTC)

The issue is complex. I remain quite skeptical that Kirk's explanation is anything more than a long shot, a stretch. That it would remain through so many different kinds of experiments, including those that a measuring net heat flow from a tightly closed system such as an Arata cell (or Case cell), seems quite remote a possibility to me, but, yes, it should be investigated. About the ordinary water results, yes. They are measuring an effect three orders of magnitude lower than what they claim to see with heavy water. Kirk seems to be proposing, though, a non-nuclear excess heat effect that perturbs calorimetry because of the particular way that it manifests, through very local heating. Don't confuse precision (i.e., the ability to detect a very small change in evolved heat) with accuracy (the determination of an absolute level of heat evolution). Very precise results might be very inaccurate, if there is some systemic error. Look, the big problem with Kirk's results is that they haven't made a big splash. They've made a little splash. Storms does comment on Shanahan, which makes it notable. How does it feel, Kirk, to be notable because of Storms' response? Other secondary source that comments on Shanahan? There may be a little, I'm not sure. Not much. To a degree, any peer-reviewed response or other independently published response to Shanahan shows notability. --Abd (talk) 23:09, 27 May 2009 (UTC)

Abd has again failed to research the things I write, and writes things that then imply I don't understand what is going on. Doing what I suggested, searching the Britz Bibliography, produced in about 5 minutes the facts that Notoya (FT 24(1993)202) produced a 4W excess heat signal with light water and nickel electrodes, and are other claims to 60% excess and 169% excess (Noninski FT 21(1992)163 and Notoya FT 26(1994)179). Storms' excess heat sig was 0.78W, McK's best (from c.'92-'93) was 1.7 as I recall, and his big '98 report best was only .36W. Point is, this is NOT 3 orders of magnitude under the signals obtained with heavy water, and it took 5 minutes to find this out. Kirk shanahan (talk) 14:30, 28 May 2009 (UTC)

Kirk shanahan wrote:

So, from the best CF researcher around we have four samples submitted that were all supposed to be primarily hydrogen with traces of helium in them, and experts in mass spectrometry instead find air. Yet, McKubre et al report He production via ‘cold fusion’.

At the same time McKubre was developing the data he presented to the 2004 DOE Review, he supplied 4 samples to Clarke, et al. McKubre expected and communicated that the samples were to be hydrogen with traces of He in them. Clarke, et al found air. This means McK had no idea what he was doing. And this is from 'the best' the field has to offer. That directly applies to the work presented at the 2004 DOE review.

Shanahan had presented material from “PRODUCTION OF 4He IN D2-LOADED PALLADIUM-CARBON CATALYST II”, W. BRIAN CLARKE, STANLEY J. BOS and BRIAN M. OLIVER FUSION SCIENCE AND TECHNOLOGY, VOL. 43, MAR. 2003, 250.

The paper reviewed by the DoE in 2004 does refer to this paper, it is note 119. The context is a footnote on page 18. The samples may have had little or nothing to do with the work of McKubre reported in teh Hagelstein 2004 DoE review paper. The footnote:

One study by Clarke[119] did not measure any significant increase in helium levels in a mass spectrometer where levels much smaller than 100 ppmV/V would have been easily recognized. Clarke, however, did not observe the procedures described by Case, which were in any case incomplete. Neither was Clarke able to measure any temperature effects and his geometry, which consisted of milligram single samples of “Case-type” catalyst confined with D2 or H2 in very small sealed Pb pipe sections, differed greatly from that used and recommended by Case.

Clear as mud. If Shanahan has evidence on what these samples were and how they would bear on the Case cell work reported to the DOE, he's welcome to provide it. Notice the possible contradiction between the claim of Clarke to have measured levels in samples taken from "SRI Case-type stainless steelcells" and the claim in the Hagelstein paper that the samples were in "very small seald Pb pipe sections." Unstated, the provenance of the samples. I don't have direct access to the Clarke paper, maybe there are more details there. Otherwise, it's looking to me like the Clarke work is likely irrelevant to the Case study presented in Appendix B of the Hagelstein paper, which was, itself, a minor part of the energy/helium evidence, Clarke being blown up and stretched by Shanahan to make it appear highly relevant. Very impressive, Kirk.

There is more. When was the work done on Case cells at SRI? McKubre reported on this at a conference in 1999: The catalytic fusion process of Dr. Les Case got a significant boost in early June. Dr. Michael McKubre of SRI International reported on a series of convincing experiments. These appear to confirm Case’s conclusion that helium-4 can be produced by the catalytic action of palladium-doped carbon in heated vessels containing pressurized (several atmospheres) heavy hydrogen (D2) gas. McKubre spoke on June 3, 1999 at the Society for Scientific Exploration’s 18th Annual Meeting, which was held at the University of New Mexico in Albuquerque.[23]. The Clarke study was published in March, 2003. As I mentioned above, we aren't informed as to the provenance of the cells. Samples were "taken from" stainless steel Case-type cells, but how? And when? How had the cells previously been treated? What was the purpose of the provision of samples to Clarke? How long elapsed between the filling of the sample containers (what were the sample containers, how were they sealed, etc) and the Clarke measurements. Pesky little details, some of which might have answers, and some not. Bottom line: these were not measurements reported as part of a study, and the purpose isn't stated by Clarke. Normally, SRI does their own measurement of Helium with their own mass spectrometer. This may have been an attempt to check a calibration, for example, and somebody screwed up. Or open, literally. It's a bit unclear why Clarke even published, the paper as described doesn't assert the significance, though Shanahan does. What I see in the Clarke report is that the containers were very badly sealed, whereas, looking at the helium data from the Hagelstein paper, one container shows no leakage at all, two show possible slow leaks (one very low levels detected, also possible measurement error, and one with a steady rise toward ambient level, could be a leak indication, but then three that show drastic rises, clearly unconnected with and surpassing ambient. I see no relation between this and the Clarke results, except possibly with the slowly leaking cells -- which were all leaking at a lower rate than Clarke speculates (major shift in "a few days" vs data collected for the Hagelstein paper over as long as 45 days.) --Abd (talk) 01:42, 28 May 2009

Any real scientist understands the case I am making. The vehement objections being raised by V and Abd about this is proof that they are biased and should not be editing the article. I don't feel the need to say more in response to them now. If others have questions please post them. Kirk shanahan (talk) 11:39, 28 May 2009 (UTC)

P.S. You're confusing papers. Note the "I" and "II". Kirk shanahan (talk) 13:30, 28 May 2009 (UTC)

Please remove this section to your own talk page. Verbal chat 06:46, 28 May 2009 (UTC)