In reply to Axil Axil's message of Tue, 4 Mar 2014 16:54:13 -0500: Hi, It seems I got the magnitudes reversed.
However consider the following:- Below the Curie Temperature Ni behaves as a Ferromagnetic material, and increases the field strength when a current is applied, as it's magnetic domains align with the field, and one another. However as energy is generated in the reactor, and the temperature rises above the Curie temperature, the "magnet" is "destroyed" leaving the magnetic domains in a disordered state, where they remain as the metal cools toward the end of the cycle. When the next cycle begins, they become ordered once again. >DGT: >"After each triggering duty cycle (the triggering sequences producing >excess heat), the magnetic fields at ~18 cm from the reactor at all three >locations rose from ~0.6 Tesla to ~1.6 Tesla (DC peak) during each reaction >period. Such anomalous peak signals were maintained for approximately 3-4 >sec after the HV currents were cut off. " > > >Axil: > >The duty cycle is triggered by a high voltage current. After the HV spark, >the magnetic field measures .6 tesla. The magnetic field grows along with >the reaction for 3-4 seconds. At the peak of the reaction cycle, the >magnetic field is 1.6 tesla. > >Read it yourself here: > >http://www.physics.purdue.edu/people/faculty/yekim/ICCF-18-JCMNS-KH-Pre-2.pdf [snip] Regards, Robin van Spaandonk http://rvanspaa.freehostia.com/project.html
