摘要
Recent experiments have provided direct evidence on the apparent existence of the synthesis of the neutron from a proton and an electron according to the reaction p+e→n+v. much along Rutherford's original conception of the neutron. These findings have received indirect, yet significant experimental confirmations in the Bose-Einstein correlation, the behaviour of the meanlife of unstable hadrons with speed, superconductivity, and other fields, which are such to warrant additional studies. In this paper we present a quantitative theoretical study on the apparent tendency of all massive particles to form a bound state at distances equal or smaller than their wavepackets which is enhanced at low energy. The study is centrally dependent on the isominkowskian geometrization of the mutual wave-overlapping and related isopoincaré symmet- ry proposed by this author back in 1983. While prohibited in the conventional Minkowski space under the conventional Poincare' symmetry, the synthesis herein considered become possible under our covering isotopic formulations thanks to new renormalizations of intrinsic characteristics of particles originating from nonlocal and nonhamitonian effects in mutual waver-overlappings. If experimenatlly confirmed, the studies here submitted would therefore imply that, not only the neutron can be produced via the proton-electron synthesis, but all unstable hadrons can be artificially produced vin the synthesis of ligther hadrons usually selected in the decay with the lowest mode, which would then acquire the meaning of tunnel effect of the constituents. Comparison and compatibility with conventional quark models are also considered for detailed study elsewhere.
Recent experiments have provided direct evidence on the apparent existence of the synthesis of the neutron from a proton and an electron according to the reaction p+e→n+v. much along Rutherford's original conception of the neutron. These findings have received indirect, yet significant experimental confirmations in the Bose-Einstein correlation, the behaviour of the meanlife of unstable hadrons with speed, superconductivity, and other fields, which are such to warrant additional studies. In this paper we present a quantitative theoretical study on the apparent tendency of all massive particles to form a bound state at distances equal or smaller than their wavepackets which is enhanced at low energy. The study is centrally dependent on the isominkowskian geometrization of the mutual wave-overlapping and related isopoincaré symmet- ry proposed by this author back in 1983. While prohibited in the conventional Minkowski space under the conventional Poincare' symmetry, the synthesis herein considered become possible under our covering isotopic formulations thanks to new renormalizations of intrinsic characteristics of particles originating from nonlocal and nonhamitonian effects in mutual waver-overlappings. If experimenatlly confirmed, the studies here submitted would therefore imply that, not only the neutron can be produced via the proton-electron synthesis, but all unstable hadrons can be artificially produced vin the synthesis of ligther hadrons usually selected in the decay with the lowest mode, which would then acquire the meaning of tunnel effect of the constituents. Comparison and compatibility with conventional quark models are also considered for detailed study elsewhere.
