High Index SMES Device for Gravitomagnetic Field Generation ()
ABSTRACT
A method is described for creating a measurable unbalanced gravitational acceleration using a gravitomagnetic field surrounding a superconducting toroid as described by Forward (1962). An experimental Superconducting Magnetic Energy Storage (SMES) toroid configuration of wound superconducting nanowire is proposed to create a measurable acceleration field along the axis of symmetry, providing experimental confirmation of the additive nature of a Lense-Thirring derived gravitomagnetic field. In the present paper, gravitational coupling enhancement of this effect is explored using a high index or high permittivity material, as predicted by Sarfatti (2020) using his modification to Einstein’s General Relativity Field Equations for gravitational coupling in matter.
KEYWORDS
Gravitational,
Gravitomagnetic,
Lense-Thirring,
Superconducting Magnetic Energy Storage,
SMES,
Nanorods,
Nanowires,
Super Dielectric Materials,
SDM,
Super Capacitors,
High Permittivity,
Gravitomagnetic Permeability,
Gravitational Coupling
Share and Cite:
Stephenson, G. (2021) High Index SMES Device for Gravitomagnetic Field Generation.
Journal of High Energy Physics, Gravitation and Cosmology,
7, 367-376. doi:
10.4236/jhepgc.2021.72020.
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