The dynamics of a relativistic particle in a Reissner-NordstrÃ¶m background is studied using Caianiello model with maximal acceleration. The behaviour of the particle, embedded in a new effectiveâ€¦ (More)

We consider a model in which accelerated particles experience lineâ€“ elements with maximal acceleration corrections. When applied to the Schwarzschild metric, the effective field experienced byâ€¦ (More)

We consider a model in which accelerated particles experience lineâ€“elements with maximal acceleration corrections that are introduced by means of successive approximations. It is shown thatâ€¦ (More)

The radiation emitted by charged, scalar particles in a Schwarzschild field with maximal acceleration corrections is calculated classically and in the tree approximation of quantum field theory. Inâ€¦ (More)

The maximal acceleration corrections to the Lamb shift of oneâ€“ electron atoms are calculated starting from the Dirac equation and splitting the spinor into large and small components. The resultsâ€¦ (More)

Caianielloâ€™s quantum geometrical model with maximal acceleration places the upper limit Î¼ â‰¤ 719.5 GeV on the mass of the Higgs boson. The model also provides an equation linking the mass of the Wâ€¦ (More)

Following previous attempts [1], Caianiello showed in 1984 that Heisenbergâ€™s uncertainty relations place an upper limit Am on the value that the acceleration of a particle can take along a worldlineâ€¦ (More)

A lower bound on the light neutrino mass mÎ½ is derived in the framework of a geometrical interpretation of quantum mechanics. Using this model and the time of flight delay data for neutrinos comingâ€¦ (More)

G. Papini, G. Scarpetta, A. Feoli , G. Lambiase Department of Physics, University of Regina, Regina, Sask, S4S 0A2, Canada Prairie Particle Physics Institute, Regina, Sask, S4S 0A2, Canadaâ€¦ (More)

Spin-1/2 particles can be used to study inertial and gravitational effects by means of interferometers, particle accelerators, and ultimately quantum systems. These studies require, in general,â€¦ (More)