Electron microscopy and neutron activation techniques are used to map the elemental and isotopical compositions of ferrite bars where the emission of neutron bursts and the formation of dark regions were reported after ultrasound irradiation. Anomalous values are found in these regions. The original concentrations of natural isotopes of copper and zinc are deduced; the occurrence of pressure-induced nuclear reactions is inferred while the cavities are suggested to act as nuclear micro-reactors. The general characteristics of these phenomena are considered a support to the existence of a new type of reactions, called deformed space–time reactions (DST-reactions).
Atomic and isotopic changes induced by ultrasounds in iron / Albertini, Gianni; Fabio, Cardone; Monica, Lammardo; Andrea, Petrucci; Filippo, Ridolfi; Alberto, Rosada; Valter, Sala; Emilio, Santoro. - In: JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY. - ISSN 0236-5731. - ELETTRONICO. - 304:2(2014), pp. 955-963. [10.1007/s10967-014-3341-5]
Atomic and isotopic changes induced by ultrasounds in iron
ALBERTINI, GIANNI;
2014-01-01
Abstract
Electron microscopy and neutron activation techniques are used to map the elemental and isotopical compositions of ferrite bars where the emission of neutron bursts and the formation of dark regions were reported after ultrasound irradiation. Anomalous values are found in these regions. The original concentrations of natural isotopes of copper and zinc are deduced; the occurrence of pressure-induced nuclear reactions is inferred while the cavities are suggested to act as nuclear micro-reactors. The general characteristics of these phenomena are considered a support to the existence of a new type of reactions, called deformed space–time reactions (DST-reactions).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.