Evidence of Field Torsion through a Hall’s Sensor with Dynamic Magnetic Dilaton

Abstract

Torsion is an observable and invariant, which in geometry is a second curvature. In field theory, the torsion is the better evidence of the birth of gravity, the interaction between electromagnetic fields and gravitational fields or matter presence from microscopic level and its different effects until our days with the gravitational waves that are echoes detected from big bang in astronomical observatories. Through electronics is designed an analogue of torsion measurement, considering the electronic signals detected by a Hall sensor gauge to detect the magnetic field of a dilation (gauge particle of magnetic nature). This moves along a spiral trajectory with certain constant torsion as well as variable torsion, where curvature energy can be obtained through electromagnetic fields. However, in the case of the torsion, is required a trajectory whose torsion is detectable and measured by fine instruments. A consideration important raised of some investigations using Hall sensors gauged to different ranges of magnetic field is the obtaining of the torsion as energy spectra whose energy density is a spectral torsion determined through the energy curvature developed in the spinor-twistor framework, used to evidence the torsion in sources and holes in the space-time, for example.