Quantum Physics From Abstract to Laboratory Space I. QStates Sustained by Partite Material Systems: Linking A+B and AxB domains via Entanglement
Abstract
The paper focuses on aspects of the measurement problem introducing quantum states (qstates) for measured and measuring systems. The link between noninteracting and interacting quantum systems is first look at. For two independent partite systems logical sums A+B stand for noninteracting qsystems; while a direct product space AxB gathers interacting states. However this latter should support physical qstates with base states that do not separately belong to either A nor B; the latter correspond to bridge states, namely entangled states that can perform as links (bridges) between A+B and AxB domains. Bridge states at laboratory space open possibilities to describe transport in quantized amounts of energy and angular momentum. These link bases sustain entanglements of different kinds. Interactions bring in quantized electromagnetic (em) fields. Matter sustained qstates entangled to emsustained qstates open bridges to transport information between matter and radiation.
 Publication:

arXiv eprints
 Pub Date:
 June 2017
 arXiv:
 arXiv:1706.00288
 Bibcode:
 2017arXiv170600288T
 Keywords:

 Quantum Physics
 EPrint:
 22 pages