Re: [Vo]:Electron Transition Atomic Mass Change Quantified
It's not Einsteins law it's Plank law combined with Poincarés Mass EM mass energy relation. See : https://en.wikipedia.org/wiki/Henri_Poincaré#Mass–energy_relation The formula E=MC^2 has first been found by Poincaré! J.W. Am 09.05.20 um 19:33 schrieb Terry Blanton: A new door to the quantum world has been opened: When an atom absorbs or releases energy via the quantum leap of an electron, it becomes heavier or lighter. This can be explained by Einstein's theory of relativity (E = mc2). However, the effect is minuscule for a single atom. Nevertheless, the team of Klaus Blaum and Sergey Eliseev at the Max Planck Institute for Nuclear Physics has successfully measured this infinitesimal change in the mass of individual atoms for the first time. In order to achieve this, they used the ultra-precise Pentatrap atomic balance at the Institute in Heidelberg. The team discovered a previously unobserved quantum state in rhenium, which could be interesting for future atomic clocks. Above all, this extremely sensitive atomic balance enables a better understanding of the complex quantum world of heavy atoms. https://phys.org/news/2020-05-successfully-infinitesimal-mass-individual-atoms.html -- Jürg Wyttenbach Bifangstr.22 8910 Affoltern a.A. 044 760 14 18 079 246 36 06
Re: [Vo]:Electron Transition Atomic Mass Change Quantified
Interesting. Mass-energy change at the atomic scale is usually ignored by chemists and physicists because it is too small measure. Now that such a small change can be measured perhaps it will lead to the discovery/recognition of novel phenomena at the interface of chemical and nuclear physics. Harry On Sat, May 9, 2020 at 1:33 PM Terry Blanton wrote: > A new door to the quantum world has been opened: When an atom absorbs or > releases energy via the quantum leap of an electron, it becomes heavier or > lighter. This can be explained by Einstein's theory of relativity (E = > mc2). However, the effect is minuscule for a single atom. Nevertheless, the > team of Klaus Blaum and Sergey Eliseev at the Max Planck Institute for > Nuclear Physics has successfully measured this infinitesimal change in the > mass of individual atoms for the first time. In order to achieve this, they > used the ultra-precise Pentatrap atomic balance at the Institute in > Heidelberg. The team discovered a previously unobserved quantum state in > rhenium, which could be interesting for future atomic clocks. Above all, > this extremely sensitive atomic balance enables a better understanding of > the complex quantum world of heavy atoms. > > > https://phys.org/news/2020-05-successfully-infinitesimal-mass-individual-atoms.html > >
[Vo]:Electron Transition Atomic Mass Change Quantified
A new door to the quantum world has been opened: When an atom absorbs or releases energy via the quantum leap of an electron, it becomes heavier or lighter. This can be explained by Einstein's theory of relativity (E = mc2). However, the effect is minuscule for a single atom. Nevertheless, the team of Klaus Blaum and Sergey Eliseev at the Max Planck Institute for Nuclear Physics has successfully measured this infinitesimal change in the mass of individual atoms for the first time. In order to achieve this, they used the ultra-precise Pentatrap atomic balance at the Institute in Heidelberg. The team discovered a previously unobserved quantum state in rhenium, which could be interesting for future atomic clocks. Above all, this extremely sensitive atomic balance enables a better understanding of the complex quantum world of heavy atoms. https://phys.org/news/2020-05-successfully-infinitesimal-mass-individual-atoms.html
Re: [Vo]:JCMNS 32 uploaded
Robin, good point The Efimov state is generally overlooked, as we have noted before. There is something special about 3 identical resonantly bound units (esp bosons) even if the state is transitory, especially where the vectors are orthogonal on a rotating plane. (see the animation on the Wiki entry). Consider the Efimov state in the context of light lithium and the evidence of a substantial nuclear anomaly with lithium-6 due to transitory clustering of 3 deuterons, replacing the normal nucleus. The Italian researcher Claudio Spitaleri is a leading proponent. https://www.sciencedirect.com/science/article/pii/S037026931500653X Robin wrote: In reply to Jed Rothwell's message >J. Condensed Matter Nucl. Sci., Vol. 32, May 2020 is here: >http://lenr-canr.org/acrobat/BiberianJPjcondensedze.pdf I wonder if the authors of "Is the Nuclear Active Environment a Metals–Silicon–Boron–D2Alloy Enabling a Three-body Recombination between Deuteron and the Nuclei of D2?" considered Efimov states using Hydrinos/Deuterinos, where of course the initial particles are already much closer together?