Static Properties of Neutron-Rich and Proton-Rich Isotopes

Abstract: In this paper, we have investigated some static properties of 9 Be, 9 B, 13 C, 13 N, 17 O, 17 F, 21 Ne, and 21 Na isotopes. The ground state and excited state energy of these isotopes have determined in the relativistic shell model and compared with experimental data. The calculated charge radius of them is in good agreement with experimental results.

“…Therefore, since the thirties, till now there has been not a great debate on contradictory use of Schrodinger equation and the Born interpretation of its quantum wave function. In fact even in the very recent interesting theoretical and experimental investigations on nuclear fission [5][6][7][8] and nuclear energy states it was accepted the standard framework based on the assumption that the nucleus and the nucleons have static energy states and properties; in fact in these papers were adapted classical concepts without questioning the contradictory use of transition probabilities and stationary cross sections to describe the diffusion processes of the extended accelerated shape variable nucleons and fission fragments.…”

A Deterministic Model of Path Memory Dependent Inter-Nucleon Forces

“…Therefore, since the thirties, till now there has been not a great debate on contradictory use of Schrodinger equation and the Born interpretation of its quantum wave function. In fact even in the very recent interesting theoretical and experimental investigations on nuclear fission [5][6][7][8] and nuclear energy states it was accepted the standard framework based on the assumption that the nucleus and the nucleons have static energy states and properties; in fact in these papers were adapted classical concepts without questioning the contradictory use of transition probabilities and stationary cross sections to describe the diffusion processes of the extended accelerated shape variable nucleons and fission fragments.…”

A Deterministic Model of Path Memory Dependent Inter-Nucleon Forces