Jones and Axil-- Axil--Your link to Frydman is a great find—Note his bio below in the item you identified. His connections to the U of Mo and U of Ill is more than coincidence.
Paired protons may be what enters the Ni matrix. A varying external magnetic field which creates a 0 B field in the matrix from time to time may be the key. Bob Frydman earned a Ph.D. in physical chemistry (1990) from the University of Buenos Aires. In 1992, after a postdoc at the University of California, Berkeley, he became professor in the Department of Chemistry of the University of Illinois in Chicago. In 2001, he moved to Israel to become professor at the Weizmann Institute, where he currently works in the Department of Chemical Physics. In 2012, Frydman became the director of the Helen L. and Martin S. Kimmel Institute for Magnetic Resonance, and chief scientist in chemistry and biology at the U.S. National High Magnetic Field Lab. Frydman’s research focuses on magnetic resonance spectroscopy and imaging in solids, liquids, and under in vivo conditions. From: Axil Axil Sent: Tuesday, February 18, 2014 8:06 PM To: vortex-l Subject: [Vo]:The Knight Field http://arxiv.org/pdf/1309.1288v1.pdf Nuclear magnetization in gallium arsenide quantum dots at zero magnetic fields Another example as follows: http://physics.aps.org/articles/v7/17 Long-lived singlet states—zero-spin states made of two spin- particles—can be created by combining two different atomic species such as carbon and hydrogen. The production of a proton pair with zero spin can be done by applying a Zero magnetic field known as a knight field. A very large Knight Field is the effective field experienced by the nuclei in the presence of a spin polarized electron. If the magnetic field does not vary, this constant field will lineup the spin and anti-spin of the particles along a constant and unchanging magnetic field line direction. This looks like an anapole field produced by the soliton (aka NAE) to me. This knight field spin locks the two particles together. The pair will remain together for a long time after they are locked together.
