β Scribed by R.J. Furnstahl; Brian D. Serot
No coin nor oath required. For personal study only.
In nonrelativistic models of nuclei, the underlying mass scales of low-energy quantum chromodynamics (QCD) are largely hidden. In contrast, the covariant formulations used in relativistic phenomenology manifest the QCD scales in nuclei through large Lorentz scalar and four-vector nucleon self-energies. The abundant and varied evidence in support of this connection and the consequences are reviewed.
π SIMILAR VOLUMES
## Abstract In the analysis of electromagnetic fields, the vector potential has important roles especially when sources exist and quantum effects occur. We have recently proposed a new numerical method for vector analysis of threeβdimensional electromagnetic fields in the time domain. This is known
The criteria for developing an effective velocity-dependent nucleon-nucleon potential which gives realistic energies for large nuclei are discussed, and two such potentials are constructed. One is successful while the other gives too large values for the surface and symmetry energies. The reasons fo