Preliminary Theoretical Interpretation of the Tajmar Frame Dragging Effect Through the GEM Theory
- Conference date: 24–26 February 2009
- Location: Huntsville (Alabama)
A preliminary theoretical explanation for the large amplitude frame dragging effect seen by Tajmar et al. (2007) is proposed. A simple theory of quantum photon fields mediating electrodynamics is derived based on concepts from QED. These are then expressed as quantum wave functions for rotating EM systems. Based on the GEM theory, it is proposed that gravitational frame dragging relies on similar photon wave functions. The constructive interference of the frame dragging fields with co‐rotating EM photon fields coupled to Bose‐Einstein components in matter at low temperatures results in a large frame dragging term due to a mixed gravity‐EM term that is larger by a factor of approximately than ordinary frame dragging.
- Quantum electrodynamic effects
- Wave functions
- Field theory
- Low temperature instruments
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