Interplanetary Transmission of Torsion: Direct Deposition of Angular Momentum in the Solar Interior

Details Interplanetary Transmission of Torsion: Direct Deposition of Angular Momentum in the Solar Interior Interplanetary Transmission of Torsion: Direct Deposition of Angular Momentum in the Solar Interior

May 2001

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001agusm..sp31a25b&link_type=abstract

American Geophysical Union, Spring Meeting 2001, abstract #SP31A-25

Physics

2162 Solar Cycle Variations (7536), 5744 Orbital And Rotational Dynamics, 7536 Solar Activity Cycle (2162)

Scientific paper

Hammond [1] has shown that as gravitation cannot be described solely in terms of the interaction of zero-D point masses, a higher-dimensional (string) specification is required, a source then taking the form mass/unit-length. There must be considered the spatial derivative of a torsion potential as well as of the Newtonian attraction potential. Angular-momentum transfer between bodies in relative rotation (as especially those in asynchronous orbit, or the Sun about the s.s. barycenter) must take into consideration that torsion propagates spatially in fashion similar to the attraction. Accordingly, besides induction of vorticity within density- and velocity-gradient regions marked by the solar tachocline, statistical modulation of electron spin (spin flipping) may occur in homogeneous regions within the transition zone and below, to depths including the nuclear core. It may be expected that once an increment of angular momentum is implanted in particles forming the deep interior, being indestructible eventually this will diffuse upward to the superadiabatic zone, affecting the sense of the vorticular processes there dominant, notably convection and MHD. Modulation of unknown significance may also be anticipated in respect to electrons and neutrinos coming into existence in the core, in processes of beta decay. [1] Hammond, R.T., in Gen. Rel. Grav.: 'Spin, torsion, forces', vol.26: 247-263 (1994); 'Strings in gravity with torsion', vol. 32:2007-2019 (2000)

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