A new arxiv paper, possibly related to missing LENR em-emissions - "Superabsorption of light via quantum engineering"
ABSTRACT: Almost 60 years ago Dicke introduced the term superradiance to describe a signature quantum effect: N atoms can collectively emit light at a rate proportional to N^2. Even for moderate N this represents a significant increase over the prediction of classical physics, and the effect has found applications ranging from probing exciton delocalisation in biological systems, to developing a new class of laser, and even in astrophysics. Structures that super-radiate must also have enhanced absorption, but the former always dominates in natural systems. Here we show that modern quantum control techniques can overcome this restriction. Our theory establishes that superabsorption can be achieved and sustained in certain simple nanostructures, by trapping the system in a highly excited state while extracting energy into a non-radiative channel. The effect offers the prospect of a new class of quantum nanotechnology, capable of absorbing light many times faster than is currently possible; potential applications of this effect include light harvesting and photon detection. An array of quantum dots or a porphyrin ring could provide an implementation to demonstrate this effect. http://arxiv.org/abs/1306.1483 Perhaps also of interest - "SUPER-ABSORPTION" ABSTRACT: The concept of Super-Absorption has been proposed based on the correlation between deuterium flux and excess heat, and based on the selective resonant tunneling model. The experimental evidence for this correlation is shown in the D/Pd system with a Calvet high precision calorimeter. A theoretical model is set-up to show how the resonant tunneling effect will correlate the deuterium flux to the generation of excess heat. http://www.lenr-canr.org/acrobat/LiXZsuperabsor.pdf http://www.lenr-canr.org/acrobat/LiXZsuperabsor.pdf
