Relativistic Quantization of Cooper Pairs and Distributed Electrons in Rotating Superconductors

Details Relativistic Quantization of Cooper Pairs and Distributed Electrons in Rotating Superconductors Relativistic Quantization of Cooper Pairs and Distributed Electrons in Rotating Superconductors

2009-07-02

arxiv.org/abs/0907.0438v1

Physics

General Physics

For physical interpretations of SQUID measurements and Sommerfeld quantization

Scientific paper

Relativistic time synchronization along closed integral lines maintains magnetic flux quantization independently from gravitation. All Fermi-volume electrons form time-averaged electromagnetic fields within rotating conductors, while Fermi-surface superelectrons enable flux quantization in SQUID experiments. Inertia is not related to instantaneous self-coherent states of the distributed electric charge and, therefore, the Cooper pair mass can not be measured in principle from magnetic flux quantization.

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