Fabio Cardone
Fabio Cardone (born October 14, 1960) is an Italian physicist of the Italian National Research Council (CNR) and a proponent of fringe scientific theories.
Scientific career
From 1983 through 1984 Cardone worked on diophantine algebra and combinatorial analysis applied to the quark model of hadrons.
From 1984 through 1985 he was a member of the Gran Sasso Group of the Italian National Institute for Nuclear Physics (INFN) for the Gran Sasso Laboratory working on proton decay experiments by a cherenkov detector and then by a liquid argon detector within the first ICARUS project at Madison University. For the following two years, Cardone was a member of the LVD international collaboration and studied the neutron background in the Gran Sasso Laboratory.
From 1987 through 1989 he studied superconducting detector for measuring the neutrino mass and in general studied the properties of the low temperature detectors. This activity led the Nuclear Physics Committee of the European Physical Society (EPS) to invite him to lecture at the Europhysics Conference on Nuclear Physics, Bratislava 1990. He studied a measurement of the neutrino mass by inner bremsstrahlung radiation of K-capture using intense Fe55 source (more than 3 Curie).
In 1989, within the renewed interest in piezonuclear phenomena, he characterized a possible method for evaluating the energy of neutron produced by these reactions using the crossed measurement of two detectors, BF3 and He3, having different efficiency functions.
From 1989 through 1990 within the new program for the ICARUS detector at CERN he resumed the study of the proton decay in liquid Argon developing a computer simulation of such event in an ICARUS-like detector.
He studied the possible experimental proof of the existence of a stochastic radiation in a vacuum using the inverse Compton radiation of the electrons in the LEP and proposed to repeat the measurements of the LEP5 detector.
Then he studied the Bose-Einstein correlation using UA1 data under the supervision of Professor G. Salvini, the deviation from a linear energy dependence of the K° lifetime and the introduction in special relativity of an energy dependent Minkowski metric obtained by the deformation of the Minkowski space.
From 1991 he started to investigate the 'metric description of interaction' or rather the representation of an interaction by energy dependent metric and applied this method to weak (leptonic), strong (adronic ), electromagnetic and gravitational interactions.
On this topic he hold two series of seminars at Mathematical Department of La Sapienza University in Rome in 1992 and 1993, a talk at the Scientific Meeting of the GNFM in Rome on October 1993 and a lecture at the 81st National Congress of the SIF, Italian Physical Society, in Perugia on October 1995.
The highest result obtained in this framework was the description of hadronic interaction by such an energy dependent metric which set new highlights on the hadronic components confinement and asymptotic freedom through the proper time measurement of hadronic interaction (in analogy with gravitation).
Then he was able to write the Helmoltz equation for waves in Minkowski deformed space whose deformation results described by a Cauchy-like space-time deformation tensor.
The next step investigated was to represent those metrics in a penta-dimensional formalism (Kaluza-Klein like) where the fifth coordinate is the energy, in order to get the action principles and the Einstein equation with the geodesic equations for the four interactions, already described in a phenomenological way.
From 1998 through 2000 he tested the local Lorentz invariance as a foundation of the previous representation of interactions and performed a new type of electromagnetic experiment which showed the lower limits of the Lorentz invariance verifying the Minkowskian energy already got by previous experimental analysis.
In 2000 he wrote a book, in collaboration with R. Mignani, on the history of physics, illustrating unknown facts about the discovery of slow neutron and nuclear fission.
Moreover he explored the problems of the superluminality and of the stochastic electrodynamics.
During 2001-06 he, in collaboration with Roberto Mignani, summarized the previous results in two books entitled "Energy and Geometry" (World Scientific Editions, New York Singapore, 2004) and Deformed Spacetime (Springer Verlag, Heidelberg, 2007).
*Process and plant for the production of endothermic and exothermic piezonuclear reactions by means of ultrasounds and the cavitation of substances.<ref name="elenco_brevetti"/>
*Apparatus and process for the production of neutrons by means of ultrasounds and the cavitation of substances.<ref name="elenco_brevetti"/>
Scientific career
From 1983 through 1984 Cardone worked on diophantine algebra and combinatorial analysis applied to the quark model of hadrons.
From 1984 through 1985 he was a member of the Gran Sasso Group of the Italian National Institute for Nuclear Physics (INFN) for the Gran Sasso Laboratory working on proton decay experiments by a cherenkov detector and then by a liquid argon detector within the first ICARUS project at Madison University. For the following two years, Cardone was a member of the LVD international collaboration and studied the neutron background in the Gran Sasso Laboratory.
From 1987 through 1989 he studied superconducting detector for measuring the neutrino mass and in general studied the properties of the low temperature detectors. This activity led the Nuclear Physics Committee of the European Physical Society (EPS) to invite him to lecture at the Europhysics Conference on Nuclear Physics, Bratislava 1990. He studied a measurement of the neutrino mass by inner bremsstrahlung radiation of K-capture using intense Fe55 source (more than 3 Curie).
In 1989, within the renewed interest in piezonuclear phenomena, he characterized a possible method for evaluating the energy of neutron produced by these reactions using the crossed measurement of two detectors, BF3 and He3, having different efficiency functions.
From 1989 through 1990 within the new program for the ICARUS detector at CERN he resumed the study of the proton decay in liquid Argon developing a computer simulation of such event in an ICARUS-like detector.
He studied the possible experimental proof of the existence of a stochastic radiation in a vacuum using the inverse Compton radiation of the electrons in the LEP and proposed to repeat the measurements of the LEP5 detector.
Then he studied the Bose-Einstein correlation using UA1 data under the supervision of Professor G. Salvini, the deviation from a linear energy dependence of the K° lifetime and the introduction in special relativity of an energy dependent Minkowski metric obtained by the deformation of the Minkowski space.
From 1991 he started to investigate the 'metric description of interaction' or rather the representation of an interaction by energy dependent metric and applied this method to weak (leptonic), strong (adronic ), electromagnetic and gravitational interactions.
On this topic he hold two series of seminars at Mathematical Department of La Sapienza University in Rome in 1992 and 1993, a talk at the Scientific Meeting of the GNFM in Rome on October 1993 and a lecture at the 81st National Congress of the SIF, Italian Physical Society, in Perugia on October 1995.
The highest result obtained in this framework was the description of hadronic interaction by such an energy dependent metric which set new highlights on the hadronic components confinement and asymptotic freedom through the proper time measurement of hadronic interaction (in analogy with gravitation).
Then he was able to write the Helmoltz equation for waves in Minkowski deformed space whose deformation results described by a Cauchy-like space-time deformation tensor.
The next step investigated was to represent those metrics in a penta-dimensional formalism (Kaluza-Klein like) where the fifth coordinate is the energy, in order to get the action principles and the Einstein equation with the geodesic equations for the four interactions, already described in a phenomenological way.
From 1998 through 2000 he tested the local Lorentz invariance as a foundation of the previous representation of interactions and performed a new type of electromagnetic experiment which showed the lower limits of the Lorentz invariance verifying the Minkowskian energy already got by previous experimental analysis.
In 2000 he wrote a book, in collaboration with R. Mignani, on the history of physics, illustrating unknown facts about the discovery of slow neutron and nuclear fission.
Moreover he explored the problems of the superluminality and of the stochastic electrodynamics.
During 2001-06 he, in collaboration with Roberto Mignani, summarized the previous results in two books entitled "Energy and Geometry" (World Scientific Editions, New York Singapore, 2004) and Deformed Spacetime (Springer Verlag, Heidelberg, 2007).
*Process and plant for the production of endothermic and exothermic piezonuclear reactions by means of ultrasounds and the cavitation of substances.<ref name="elenco_brevetti"/>
*Apparatus and process for the production of neutrons by means of ultrasounds and the cavitation of substances.<ref name="elenco_brevetti"/>
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