squeezing light and tunneling effects are not new phenomena.
there is nothing here that would even suggest LENR
By the way how did the big demo go??? Oh yeah it didn’t
Here we consider this problem for the Coulomb potential barrier, which has numerous applications, especially for the fusion and radioactive decay phenomena. We make em- phasis on the transmission probabilities of slow particles , because this regime attracted significant attention in attempts to explain experimental data related to low energy nuclear reactions [9, 10, 11, 12, 13, 14]. It seems obvious that the spread of the packet in momentum space should result in the increase of the barrier transparency, due to the enhanced contribution of the plane wave components with high values of momenta. What is not so obvious (at least, unexpected), it is the fact that even small dispersions of the momentum can result in increase of the transmission coeffcient by many orders of magnitude. This is the motivation for writing this article
there is nothing here that would even suggest LENR
***That’s only because you do not understand what holds fusion back — the Coulomb Barrier. But other than that completely inane assertion, perhaps your comment has merit.
By the way how did the big demo go??? Oh yeah it didn’t
***The authors of this article claimed to demo??? WTF?