American Journal of Modern Physics

Volume 4, Issue 3, May 2015

  • A Theoretical Confirmation of the Gravitation New Origin Having a Dipolar Electrical Nature with Coulomb Law Corrected

    Ioan Has, Simona Miclaus, Aurelian Has

    Issue: Volume 4, Issue 3, May 2015
    Pages: 97-108
    Received: Mar. 30, 2015
    Accepted: Apr. 10, 2015
    Published: Apr. 21, 2015
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    Abstract: The paper starts by analyzing the actual justification of the separation existing between electrical and gravitational forces, considering that for neutral bodies the electrical interaction force at long distances r, totally cancels as equal and opposed +/- forces FC, given by Coulomb law. Initially it was demonstrated that the type of the force FD... Show More
  • Bound Magnetopolaron in an Asymmetric Cylindrical Quantum Dot Qubit in an Electric Field

    Alain Jerve Fotue, Maurice Tiotsop, Nsangou Issofa, Sadem Christian Kenfack, Amos Virngo Wirngo, Hilaire Fotsin, Lukong Cornelius Fai

    Issue: Volume 4, Issue 3, May 2015
    Pages: 109-117
    Received: Apr. 02, 2015
    Accepted: Apr. 15, 2015
    Published: Apr. 27, 2015
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    Abstract: We investigate a quantum mechanical system defined as an unsymmetrical bound magnetopolaron immersed in the field of the bulk longitudinal optical (LO)-phonon strong coupling. The ground and the first-excited state of the eigenenergy are derived by using variational method of Pekar type. The effect of the longitudinal and transversal confinement st... Show More
  • Charged Thin Shell Wormholes with Variable Equations of State

    Ali Eid

    Issue: Volume 4, Issue 3, May 2015
    Pages: 118-124
    Received: Apr. 20, 2015
    Accepted: Apr. 28, 2015
    Published: May 08, 2015
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    Abstract: Using the Darmois-Israel formalism the dynamical analysis of Reissner Nordstrom (RN) thin shell wormholes, at the wormhole throat, are determined by considering linearized radial perturbations around static solutions. Linearized stability of thin-shell wormholes with barotropic equation of state (EoS) and with two different EoS is derived. In the f... Show More
  • An Electromagnetic Resonance Based Interpretation of Quantum Theory

    Thomas A. Kriz

    Issue: Volume 4, Issue 3, May 2015
    Pages: 125-131
    Received: Mar. 30, 2015
    Accepted: Apr. 09, 2015
    Published: May 15, 2015
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    Abstract: An electromagnetic (EM) resonance based model derived from Maxwell's Equations is used with constraint conditions to characterize the quantum properties of both matter particles and photons. The model, as constrained by integer spin-orbit ratio, integer multiples of Planck's constant, angular momentum balance, charge balance, and EM resonance form,... Show More
  • Energy Spectrum of Ejected Electrons of H(2P) Ionization by Electrons in Coplanar Asymmetric Geometry

    Sunil Dhar, Nurun Nahar

    Issue: Volume 4, Issue 3, May 2015
    Pages: 132-137
    Received: Apr. 29, 2015
    Accepted: May 13, 2015
    Published: May 27, 2015
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    Abstract: We have investigated the energy spectrum of ejected electrons of hydrogen atoms ionization from metastable 2P state by electrons in coplanar asymmetric geometry. A multiple scattering theory of Das and Seal is applied. The present results show very interesting binary peak features. As well as a significant qualitative agreement with hydrogenic grou... Show More
  • Decoherence of Polaron in Asymmetric Quantum Dot Qubit Under an Electromagnetic Field

    Alain Jerve Fotue, Sadem Christian Kenfack, Nsangou Issofa, Maurice Tiotsop, Michel Pascal Tabue Djemmo, Amos Veyongni Wirngo, Hilaire Fotsin, Lukong Cornelius Fai

    Issue: Volume 4, Issue 3, May 2015
    Pages: 138-148
    Received: Apr. 29, 2015
    Accepted: May 13, 2015
    Published: Jun. 03, 2015
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    Abstract: In this paper, we investigate the time evolution of the quantum mechanical state of a polaron using the Pekar type variational method on the electric-LO-phonon and the magnetic-LO-phonon strong coupling in a quantum dot. We obtain the Eigen energies and the Eigen functions of the ground state and the first excited state, respectively. In a quantum ... Show More