High Energy Physics

Biography

Biography: Marius Arghirescu

Abstract

The paper is based on a theory developed by author in the book: The Cold Genesis of Matter and Fields , which argues the cold genesis of elementary particles in a very strong magnetic field, of a magnetar or a gravistar, in accordance with a resulted quasi-crystalline model of quark and particle- resulted as Bose-Einstein condensate of N gammons, considered as pairs (e^*+ - e^*-) of quasi-electrons with diminished mass m_e^*, charge e^*and magnetic moment m_e^*, whose etherono-quantonic vortex of the magnetic moment: G^*_m(r) = G_A + G_B , formed of sinergonic etherons (m_s » 10^-60 kg)- generating the magnetic potential A and of quantons (m_h = h/c² = 7.37x10^-51 kg) generating vortex-tubes that materializes the field lines of magnetic induction B, explains the nuclear force as an attraction of the nucleon’s impenetrable volume in the field of 2N- superposed vortices G^*_m(r) of another nucleon. The theory, which predicted the existence of a preon z⁰» 34 m_e, experimentally evidenced in 2015 but considered as X- boson of a fifth force, of leptons to quark binding, argues a preonic model of quarks whose stability was explained by a quasi-crystalline model of z⁰-preon and of the quark core. In the proposed paper, based on a quasi-crystalline preonic quark model, with hexagonal symmetry, there are identified as possible dark matter constituents some bosons of quantum vacuum with null charge, (quasi)null magnetic moment and with stability comparable to those of particles from the cosmic radiation, resulted by the kernel’s crystallinity with hexagonal or triangular symmetry, with masses corresponding to the relations: M_Z = å_K(n_1×z_p + n_2×z₂); M_Z’ = å_K(n₁×6z⁰+n₂×3z⁰), with: z_p = 7z⁰; z₂ = 4z⁰; K = 1¸7; n₁ = 1¸4;  n₂£ n₁. It results also some predictions for multi-quark particles of cold genesis such as: 2685.4 m_e tetra-quark; 3063.8 m_e penta-quark; 2720 m_e, 3672.4 m_e hexa-quark; 3329 m_e, 4762.2 m_e hepta-quark.