Tom Clark said:
*One side of this is the Coulomb barrier: stuff in lattices has energy of 10s of eV (else it would not be in the lattice!) whereas nuclear needs 10s of keV, assuming all sorts of reaction enhancements.* Since power is the product of voltage and amperage, to achieve an effective level of reaction power, we can make up for the very low voltage of the lattice by an increase in the amperage. Rather than having just one particle with a high voltage, we can have many sub atomic particles all working as one through entanglement to produce the required power level. That is the key to understanding how Strongly Correlated Material operates in condensed matter. It has been experimentally demonstrated in nanoplasmonics that a power concentration level of 10^^15 watts per cm2 can be produced using surface plasmon polaritons. The NiH reactor has just increased that power production level by just 6 or 7 orders of magnitude. Furthermore, Nanoplasmonics have just make possible a polariton laser that can pump out a photon power level of 10^^13 watts/cm2 at room temperature. Polaritons can concentrate power to the required level to produce LENR reactions.
