The Correlation Between Gravitation and Electromagnetism, Inertia and Unification D'Aquino F 1999 We show that gravitational mass and inertial mass are correlated by an adimentional factor, which in specific electromagnetic conditions, can be reduced, nullified, negated, and increased. Some theoretical consequences of the mentioned correlation are: the generalization of Newton=92s second law for the motion (New law for Inertia); the deduction of the differential equation for entropy (second law of Thermodynamics); unification of gravitational and electromagnetic interactions . PREPRINT

Electron. Spacecr. J. Electron. Spacecr. J. The Gravitational Spacecraft D'Aquino F 1998 27 6 13 There is a electromagnetic factor of correlation between gravitational mass and inertial mass, which in specific electromagnetic conditions, can be reduced, nullified, negated, and increased. This means that gravitational forces can be reduced, nullified, inverted and intensified by means of electromagnetic fields. Such control of the gravitational interaction can have a lot of practical applications. For example, a new concept of spacecraft and aerospace flight arises from the possibility of the electromagnetic control of the gravitational mass.Some theoretical consequences of the mentioned correlation are: the generalization of Newton=92s second law for the motion (New law for Inertia), the deduction of the differential equation for entropy (second law of Thermodynamics), unification of gravitational and electromagnetic interactions . research-article

Gravitation and Electromagnetism D'Aquino F 1999 It is demonstrated that gravitational and inertial masses are correlated by an electromagnetic factor. From the practical point of view this is very important because it means the possibility of electromagnetic control of the gravity. Some theoretical consequences of the correlation are: incorporation of Mach's principle into Gravitation Theory; new relativistic expression for the mass ; the generalization of Newton=92s second law for the motion; the deduction of the differential equation for entropy directly from the Gravitation Theory. Another fundamental consequence of the mentioned correlation is that, in specific ultra-high energy conditions, the gravitational and electromagnetic fields can be described by the same Hamiltonian, i.e., in these circumstances, they are unified ! Such conditions can have occurred inclusive in the Initial Universe, before the first spontaneous breaking of symmetry. PREPRINT

Electromagnetic compatibility 1965 BOOK

Phys. Rev. D Phys. Rev. D Nucleon contribution to the neutrino electromagnetic vertex in matter D'Olivo J C Nieves J F 1997 56 5898 5906 We calculate the nucleon contribution to the electromagnetic vertex of a neutrino in a background of particles, including the effect of the anomalous magnetic moment of the nucleons. Explicit formulas for the form factors are given in various physical limits of practical interest. Several applications of the results are mentioned, including the effect of an external magnetic field on the dispersion relation of a neutrino in matter. research-article

Propulsion Through Electromagnetic Self-Sustained Acceleration Petkov V B 1999 As is known the repulsion of the volume elements of an uniformly accelerating charge or a charge supported in an uniform gravitational field accounts for the electromagnetic contribution to the charge's inertial and gravitational mass, respectively. This means that the mutual repulsion of the charge's volume elements resists its accelerated motion. Conversely, the effect of electromagnetic attraction of opposite charges results in a self-sustaining accelerated motion of the charges provided that they have been initially uniformly accelerated or supported in an uniform gravitational field. The significance of this effect is that it constitutes a possibility for altering inertia and gravitation. PREPRINT

The thermodynamic limit for matter interacting with Coulomb forces and with the quantized electromagnetic field: I. The lower bound Lieb E H Loss M 2004 The proof of the existence of the thermodynamic limit for electrons and nuclei interacting via the Coulomb potential, in the framework of non-relativistic quantum mechanics, was accomplished decades ago. This result did not take account of interactions caused by magnetic fields, however, (the spin-spin interaction, in particular) or of the quantized nature of the electromagnetic field. Recent progress has made it possible to undertake such a proof in the context of non-relativistic QED. This paper contains one part of such a proof by giving a lower bound to the free energy which is proportional to the number of particles and which takes account of the fact that the field, unlike the particles, is never confined to a finite volume. In the earlier proof the lower bound was a `two line' corollary of the `stability of matter'. In QED the proof is much more complicated. PREPRINT

Radiation reaction force and unification of electromagnetic and gravitational fields Goldstein G R Napier A 1981 PREPRINT

Thermodynamic analysis on classical particles in the classical electromagnetic zero-point field Rueda A 1980 PREPRINT