Electrostatic-gravitational oscillator

نویسندگان

  • Constantinos G. Vayenas
  • Stamatios Souentie
چکیده

We examine the one-dimensional motion of two similarly charged particles under the influence of only two forces, i.e. their Coulombic repulsion and their gravitational attraction, using the relativistic equation of motion. We find that when the rest mass of the two particles is sufficiently small (∼ 0.4 eV/c) and the initial Coulombic potential energy is sufficiently high (∼ mpc , where mp is the proton mass), then the strong gravitational attraction resulting from the relativistic particle velocities suffices to counterbalance the Coulombic repulsion and to cause stable periodic motion of the two particles. The creation of this confined oscillatory state, with a rest mass equal to that of a proton, is shown to be consistent with quantum mechanics by examining the particle de Broglie wavelength and the Klein-Gordon and Schrödinger equations. It is shown that the gravitational constant can be expressed in terms of the proton mass and charge, the vacuum dielectric constant, the Planck constant and the speed of light. It is also shown that gravity can cause confinement of light (∼ 0.1 eV/c) neutral particles (neutrinos), or pairs of a neutral and a charged light particle, in circular orbits of size 0.9 fm and period 10 s forming bound neutral or charged hadron states. ∗E-mail: [email protected]

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تاریخ انتشار 2009