15 octobre 2015

Groningen and Bobeszko

Presentation at Groningen:    My calculation of the deuteron 2H binding energy has been verified by A. Bobeszko: There are some restrictions: "The internucleon distance is much less than experimentally estimated." The separation distances r and a are not internucleon distances, not considered here. They separate pointlike electric charges and magnetic moments. A single horizontal inflection point is obtained by adjusting the parameter a. The corresponding potential coincides with the experimental binding energy... [Lire la suite]

30 septembre 2015

Forces between nucleons according to Evans

Citations of R.D. Evans, The Atomic Nucleus, McGraw-Hill, New York, 1969, Chater 10 and 11, are in quotation marks. Comments in italics. Chapter 10 Forces between nucleons 1. General Characteristics of Specifically Nuclear Forces a. Comparison of Atomic and Nuclear Forces "no predominant central particle" : the nucleus has no nucleus like the atom The forces have a very short range of action: the measurement of the range of action is undefined, unlike the radioactive decay period.  "In order to... [Lire la suite]
30 septembre 2015

I didn't know it was impossible

My theory of the electromagnetic origin of the nuclear interaction has been published in an american journal under the title "Electromagnetic Theory of the Binding Energy of the Hydrogen Isotopes", Journal of Fusion Energy (2011) 30 :377-381. Ma presentation in Glasgow is easier. Official objections of the french Académie des Sciences (December 5, 2008):  "1) Pourquoi les spins ne s'orienteraient-ils pas de façon à ce que l'énergie soit négative, dont attractive?" It is the Bieler hypothesis in... [Lire la suite]
30 septembre 2015


The physical nature of the nuclear interaction has been discovered to be electromagnetic. The atomic nucleus was discovered by Rutherford, explaining electrically nuclear scattering, with a slope -2 in log-log coordinates. For high kinetic energies, the slope is -6, magnetic: The Rutherford scattering is electromagnetic. Details here: Rutherford NUCLEAR BINDING ENERGY IS ELECTROMAGNETICA proton attracts a not so neutral neutron as a rubbed plastic pen attracts small pieces of paper. Quantitatively, one has to use the exact... [Lire la suite]
30 septembre 2015

My presentation at Groningen

"The strong nuclear force is one of the four fundamental forces in nature; the other three are gravity, electromagnetism and the weak force. As its name implies, the strong force is the strongest force of the four. It is responsible for binding together the fundamental particles of matter to form larger particles." According to Wikipedia, "The nuclear force (or nucleon–nucleon interaction or residual strong force) is the force between protons and neutrons, subatomic particles that are collectively called nucleons.... [Lire la suite]