USEFUL PAPERS THREAD

    I just tried to say that some "NAE " are excited by conduction then some others by radiations.

    Up to you to find/imagine the most effective solution :)

    Quote from Frogfall

    That isn't what the paper is about - and it expressly talks about other effects that cannot be purely phonon based. They have referred to what they call a "memory effect" - which I think is probably a poor translation. They are talking about energy that seems to disappear from the molecular vibrations in one location - and then reappear as vibrations in another location a short time later. As a bulk effect it isn't really noticeable - but it is measurable on what they refer to as the mesoscopic scale (between molecular and macroscopic).


    It's just something I've been looking at for non-LENR purposes - but it could be relevant to other liquid/sonic systems.

    Quote from Cydonia

    I just tried to say that some "NAE " are excited by conduction then some others by radiations

    You have just restricted yourself by talking about "classical" (19th century) energy transfer models. It is true that these models have served us well on a macro engineering scale. However, the paper I linked to is pointing out that the traditional models appear to break down under some circumstances - which suggests that they cannot be telling the whole story. Always remember: "all models are wrong, but some are useful".

    "The most misleading assumptions are the ones you don't even know you're making" - Douglas Adams

    Like 2

    https://www.researchgate.net/publication/388653865_Detections_of_He-3_in_Ni-based_binary_metal_nanocomposites_with_Cu_in_zirconia_exposed_to_hydrogen_gas_at_elevated_temperatures


    Tomoya Yamauchi1, Yutaka Mori1, Shuto Higashi1, Hayato Seiichi1, Masahiko Hasegawa1, Akito Takahashi2,Akira Taniike1, and Masato Kanasaki1*1Graduate School of Maritime Sciences, Kobe University, Kobe, 658-0022, Japan2Osaka University, Suita, Osaka 565-0871, Japan*E-mail: [email protected] August 6, 2024; revised November 7, 2024; accepted January 5, 2025; published online February 3, 2025.


    The present study aims to detect helium-3 in nickel-based metal nano-composites doped with zirconia, which exhibited anomalous heat generationwhen exposed to hydrogen gas at approximately 450 °C.

    Maybe useful for Dr Thomas//

    but maybe the testimony from experienced nuclear scientists in

    Japanese Journal of Applied Physics doesn't count as much as Nature


    Thomas..""The authors of the letter to the Guardian suggest that cold fusion research is now being suppressed from publication. In reality, credible, rigorous studies continue to be published in reputable journals (such as a 2019 study in Nature), but none of them has successfully observed cold fusion. The letter claims that companies have “been able to make these reactions work quite reliably”, but do not provide any evidence to support this."


    This investigation represents a significant milestone in the field of cold fusion research, which originated with the seminal work of Fleischmann and Pons in 1989. The results presented herein provide compelling evidence that cold fusion is not a theoretical construct but an observable phenomenon, offering potential as a carbon-free and radio- activity-free energy source for humanity


    This is the reconstructed (and translated) 1958 Atompraxis article, written by W Ehrenberg, that kicked-off the revision of attitudes towards Richter's experiments amongst some circles. Of course, as with Cold Fusion post 1989, once a widespread damning reputation has been created via the press it continues to affect the views of many people, both inside and outside of the wider scientific community.


    The Argentine Nuclear Fusion Experiments in a New Light

    by W. Ehrenberg

    Ehrenberg_1958_Atompraxis.pdf

    "The most misleading assumptions are the ones you don't even know you're making" - Douglas Adams

    Like 2 Thanks 1
    • New

    FeOOH hydrino paper 033625


    Abstract:

    Mills solves the hydrogen atom and molecule in exact equations that give the experimental observables of both [1]. Uniquely, Mills predicts that in addition to the reciprocal integer squared excited-state electronic energy states of atomic hydrogen, hydrogen possesses integer squared electronic energy levels corresponding to 1/p replacing n in the Rydberg formula, corresponding so-called hydrino state of hydrogen. Hydrino, H(1/p), is any small form of atomic hydrogen with state energy En = -13.598/n2 eV, in which n = 1/p, and p is a limited by the energy in the electric field of the proton to 126 whereafter the proton and electron decay. Electron transitions to a hydrino states involve an initial non-radiative energy transfer to a catalyst that serves as an energy hole or sink of a quantized amount of energy, 2mE1 (m is integer) to be transferred to a catalyst such as HOH, a free or nascent water molecule. Furthermore, hydrino atoms can react to form the corresponding diatomic molecule referred to as molecular hydrino H2(1/p). In contrast to molecular hydrogen (H2), the molecular hydrino (H2(1/p)) is paramagnetic with S = ½, the size is 1/p3 that of H2, the internuclear distance is 1/p that of H2, and the energies such as the rotational, vibrational, and total molecular energies are p2 those of H2. These aspects of H2(1/p) give rise to unique spectral signatures that are characteristic of and identify H2(1/p). The recording of unique gas chromatographic (GC), electron paramagnetic resonance (EPR), Raman spectroscopy, electron beam excitation spectroscopy, and X-ray photoelectron spectroscopy (XPS) peaks of H2(1/4) formed by a high energy impact reaction of FeOOH that served as the source of H and HOH catalyst are reported wherein the observed peaks matched those predicted [1].

    • New
    Quote from Wyttenbach

    We should here not repeat his nonsensical claims. There never ever has been found a single Hydrino. Only H*-H* is stable but is not conform with Mills calculated potential for H-H 1/4!

    I have your 1 opinion, as opposed to the dozens of highly qualified scientists, and staff, who have worked alongside Mills for 35 years now. Not a one of whom has come forward and said Mills theory was "nonsensical". So, I take that as meaning they agree with what they saw FIRST HAND.


    Maybe your energy would be better spent trying to take up BLP's challenge to test a sample of the Hydrino, instead of being a naysayer?

    • New

    Agree that is possible to fool people during 4 years (Clean HME for example.. ) ..not for 35 years..

    Quote from Shane D.

    I have your 1 opinion, as opposed to the dozens of highly qualified scientists, and staff, who have worked alongside Mills for 35 years now. Not a one of whom has come forward and said Mills theory was "nonsensical". So, I take that as meaning they agree with what they saw FIRST HAND.


    Maybe your energy would be better spent trying to take up BLP's challenge to test a sample of the Hydrino, instead of being a naysayer?

    • New
    Quote from Shane D.

    X-ray photoelectron spectroscopy (XPS) peaks of H2(1/4)

    The XPS .EPR results for ONE "H2(1/4)" molecular species don't necessarily

    prove the existence of 125 species of shrunken mono H atomic hydrino..

    or validate Mill's hydrino. calculations

    Maybe the XPS/EPR results for the 125 shrunken H's are due within 30 years..?

    Quote from Shane D.

    . Hydrino, H(1/p), is any small form of atomic hydrogen with state energy En = -13.598/n2 eV, in which n = 1/p, and p is a limited by the energy in the electric field of the proton to 126

    • New
    Quote from Shane D.

    FeOOH hydrino paper 033625

    Similarly to R. Mills prof. L. Holmlid seems to be also obsessed with iron oxide compounds during to his searches of Rydberg hydrogen and they both call it a catalyst. I can't imagine what is so particular about these compounds with respect to exotic hydrogen species. Maybe their paramagnetism and theoretical ability to capture them? Brilliant Light Power is now offering free access to its hydrino materials—both in solid form (FeOOH:H₂(1/4)) and as gas—for independent analysis.

    • New

    Resonance is a kinda low-effort explanation in physics. Everything could be explained with resonance at the end - but why iron oxides should resonate and others not? There are so many similar elements and their compounds. This is like the explanation of superconductivity by Cooper pairs: OK, but why some materials form these pairs and others not?


    This is the place where the actual explanation starts.

    • New

    LENR- Experiment on Heterogeneous Hydrocarbon Plasma Jet Interaction with Ni-Foil-Target | Published in Journal of Condensed Matter Nuclear Science
    By A. Klimov, A. Pashchina. Experimental Article
    jcmns.org


    Heterogeneous Hydrocarbon Plasma (HHP) was used in LENR experiments in the studies [1], [2] for the first time. This HHP

    was created by a pulsed erosive capillary plasma generator (PG). The working erosive substance PMMA (polymethyl-methacrylate,

    monomer-C5H8O2) was used in this PG. This work is a continuation of the previous ones [1], [2]. A calorimetric experiment with

    PG and distant Ni-foil cathode has been carried out in argon atmosphere(Pst~1 Bar). It was determined that HHP consists of the

    carbon nano-clusters and hydrogen atoms + hydrogen ions. These species are connected with dissociation of the initial PMMA.

    The interaction of HHP with thin Ni-foil target (width 0.1 ÷ 1 mm) has been studied in this work. HHP- jet heats, melts and

    evaporates this thin Ni-foil target. In a result of this interaction a small hole with diameter 1–3 mm in the Ni-foil target was burned

    by HHP-jet. Parameters of this hole were measured. Ni-foil weight was measured before and after the experiment also. It was

    revealed that the value COP was about of 5 ÷ 6 in this experiment (where COP = QT/Qe,QT – thermal energy of heating, melting

    and evaporating of the Ni-foil-target, Qe-electric energy input for HHP-jet creation). New transmuted chemical elements Li, Al,

    Ca,. . . were recorded in the HHP by the optical spectroscopy method, the EDS-method and the MS ICP method.

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