One of the critical characteristics of the LENR reaction is provided by the feature that is deep into the quantum mechanical nature of the polariton, that is, its nature to readily form a Bose Einstein condensate at any temperature based on polariton density.
Density of polaritons is what makes a aggregation of polaritons form a condensate, and a condensate of polaritons is what allows the energy that the polaritons produce to be formatted as heat. Without a lot of polaritons around, most of the energy that they produce is wasted as sub atomic particle creation...mostly muons. But when a lot of polaritons are generated, a Bose condensate will form, and heat will be produced by that condensate, Here is a video about Bose condensation of polaritons by the top guy in that subject that is not too hard to understand. https://youtu.be/Ff1GsWSahps?t=619 At 55:09 in the video, the two counter rotating rings of polaritons in a high angular momentum state was shown. This is a non equilibrium condensate. That means that it is non thermal. Non thermal means that the temperature of the condensate can be just about any temperature. We have seen evidence of this type soliton in the LION reactor meltdown. When a LENR reactor is heated, this input of energy is pumping the polariton condensate. When the condensate forms, a large burst of Bremsstrahlung is generated and when the pumping stops, there is also Bremsstrahlung produced as the polariton codensate breaks up. The Polariton condensate can pump itself, this is where self sustain mode comes from. When self pumping occurs, the condensate can moves around in space as a free particle and leave tracks on surfaces as the condensate transmutes matter as it moves along its way.
