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Deuterium-deuterium fusion by an activated precursor

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Il Nuovo Cimento D

Summary

A general scheme is proposed for the interpretation of the phenomena involving low-energy hydrogen-isotope fusion. This scheme is especially developed for the interpretation of the fusion rate observed after the impact of heavy-water clusters (D2O) n , 25≲n≲1350, onto targets of titanium deuteride TiD. It is shown that 1) the impinging energy of large clusters or molecules is equiparted among a lot of target atoms which are brought in collective motion; 2) data can conveniently be represented in an Arrhenius plot; 3) this plot suggests that fusion is a thermally activated process from a metastable precursor; 4) the activation energy for the precursor formation isE *≃2E 0 (E 0 being the electron binding energy in the hydrogen atom), and 5) the activated precursor can reasonably be identified with the metastable binuclear heliumlike (D+D+)2e atom.

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Authors and Affiliations

  1. Functional Materials Laboratory, EniChem, Via S. Salvo 1, 20097, San Donato (Milano), Italia

    G. F. Cerofolini

  2. EEC Joint Research Center, 21020, Ispra (Varese), Italia

    R. Dierckx

  3. Politecnico di Milano, Istituto di Ingegneria Nucleare, 20133, Milano, Italia

    A. Foglio Para

  4. Dipartimento di Fisica, Università di Modena, Via Campi 213, 44100, Modena, Italia

    G. Ottaviani

Authors
  1. G. F. Cerofolini
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  2. R. Dierckx
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  3. A. Foglio Para
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  4. G. Ottaviani
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Cerofolini, G.F., Dierckx, R., Para, A.F. et al. Deuterium-deuterium fusion by an activated precursor. Il Nuovo Cimento D 13, 1347–1359 (1991). https://doi.org/10.1007/BF02457123

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  • DOI: https://doi.org/10.1007/BF02457123

PACS 25.45.Z

PACS 79.20.Nc

PACS 52.50.Dg

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