Perhaps the neutrons are captured in some manner and allowed to decay into proton, electron, and an electron antineutrino. The antineutrino would easily escape the system carrying away mass and energy.
The total kinetic energy associated with the neutron in the test system would be reduced by that carried away. Temperature is a measure of kinetic energy. A lot depends upon the magnitude of energy that is carried away by the antineutrino. If it carries away all of the energy required to make a neutron from the parts, then this process might explain the loss of heat. Dave -----Original Message----- From: Jones Beene <jone...@pacbell.net> To: vortex-l <vortex-l@eskimo.com> Sent: Sat, Jun 16, 2012 8:01 pm Subject: RE: [Vo]:Missing Neutrons (hydrinos) ----Original Message----- rom: mix...@bigpond.com Why would Hydrinos be any more likely to interact with another dimension han rdinary matter? i Robin, Why would neutrons? This is all based on the speculative paper cited. The paper apparently does not go into much detail on an underlying ationale, and neither did I. But if neutrons would disappear from 3-space via some kind of oscillation neutrino-like), then maximally reduced hydrinos could possibly do the same. The cooling seen is not chemical (endothermic) so it is hard to explain therwise. Jones
