By running an electron paramagnetic (EPR) spectrum for hours, Professor Hagen was able to resolve the molecular hydrino H2(1/4) spin-orbital splitting and the spin-flip transition sub-spitting due to linkage of magnetic flux in integer units of the fluxon, integer units of the magnetic flux quantum h/2e. Corresponding energies on the order of 10-27 J and 10-28 J are so low and integer periodic that nothing known prior matches this unique and characteristic EPR spectrum. The hydrino content of the compound provided to TU Delft was also demonstrated by XPS, ToF-Sims, Rutherford backscattering spectroscopy, gas chromatography, Raman spectroscopy, and other methods [Analytical Presentation] The integer flux linkage observed on a different hydrino species, hydrino hydride ion, was reported previously by Brilliant Light Power, Inc. scientists. These results demonstrate that in addition to energy, there are material applications. For example, the linkage of magnetic flux in integer units of the magnetic flux quantum is identical to the behavior of a superconducting quantum interference device (SQUID) that is macroscale electronics device requiring cryogenic cooling. A corresponding magnetometer, sensor, detector, or computer logic gate or memory element may be a single hydrino hydride ion or molecular hydrino such as H2(1/4) that is 64 times smaller than molecular hydrogen and capable of operation at even very high temperatures. [Delft EPR slides], [Theory: Chp. 16 (updated 4/20/2020) at]