Abstract: The long standing hierarchy problem in particle physics addresses the 19 orders of magnitudes difference in interaction between electromagnetic forces and gravitation. Referring to string and conformal field theories it is commonly agreed that the weakness of gravity can in general be assigned to extra-dimensions (holographic principle). But there are no practical rules regarding dimensional adjustments and proper dynamic scaling improving the coupling of fields with different dimensionality, i.e. transforming electromagnetic flux into higher-dimensional gravitational fields for space propulsion purposes. Regarding the flux volume there is in any case a characteristic power-law scaling between length and time or mass scales with exponent proportional to the number of spatial dimensions. As a requirement of unification and adjustment, power-laws with different exponents should intersect at the unit scale since any power of 1 is 1. The basic reference and gravitational unit scale is given by a Kepler dynamics with unit radius and unit angular velocity that can be assigned to a gravitational unit source |mG|= |4pi2/G|. At this scale topologically different fields, sources of interaction and correspondent characteristic length and mass scales can be compared via Gauss law, where a quantum flux number NG connects the unit scale and the quantum scale. In our System of Units (SI) NG oc c4 can be found by dividing the unit length by the Planck length, consequently NG measures the weakness of gravity at the unit scale, where the Compton photon scale is given by the geometric mean and inversion symmetry between the unit and the Planck scale. Fields of applications could be in solid state superconductors (exotic materials) able to host high-dimensional network flux topologies with proper scaling and dynamics.
Antigravity & BPP Research papers.