To take this further... If condensation, in the sense of boson densification, is the intermediate goal, and phonons influence photon and magnon coherence in LENR by entanglement ... and we desire to manufacture dense deuterium ... then it might be best to do so in a COLD magnetized chamber - such as a separate cryogenic operation - prior to use in a thermal reactor. Possibly this could be accomplished at LN temperatures, instead of near absolute zero.
Is there an obvious reason why cryogenics could not be used to make a dense deuterium fuel which is storable, much denser than liquefied hydrogen and can be burned for energy later? This would eliminate Mills technique of using ions as "holes" but it also avoids his IP and could be more robust as a cold process than as a hot process. As for photonic input, we know that laser cooling is a reality, so perhaps it could be possible to use coherent light even in cryogenics. How does "cold SPP" sound?
