Lattice Energy LLC recently posted a new presentation reviewing evidence for LENRs in carbon nanostructures:
LENRs on Hydrogenated Fullerenes and Graphene-July 6 2012 http://www.slideshare.net/lewisglarsen/lattice-energy-llclenrs-on-hydrogenated-fullerenes-and-graphenejuly-6-2012 Especially interesting since carbon supports ballistic current at high temperatures. Slide 26 cites this intriguing paper: Macroscopic Transport of Mega-ampere Electron Currents in Aligned Carbon-Nanotube ArraysPhys. Rev. Lett. 108, 235005 (2012) http://prl.aps.org/abstract/PRL/v108/i23/e235005 ABSTRACT: "We demonstrate that aligned carbon-nanotube arrays are efficient transporters of laser-generated mega-ampere electron currents over distances as large as a millimeter. A direct polarimetric measurement of the temporal and the spatial evolution of the megagauss magnetic fields (as high as 120 MG) at the target rear at an intensity of (10^1810^19)W/cm2 was corroborated by the rear-side hot electron spectra. Simulations show that such high magnetic flux densities can only be generated by a very well collimated fast electron bunch." A couple of interesting nanotech papers (not cited): Quantum statistical model for superconducting phase in graphene and nanotubes http://arxiv.org/pdf/0903.0701.pdf ABSTRACT: A quantum statistical theory is presented, supporting a superconducting state of an ultrahigh critical temperature (1275 K) in the multiwalled nanotubes reported by Zhao and Beeli [Phys. Rev.B 77, 245433 (2008)]. Patent application title: NANOGAP DEVICE FOR FIELD ENHANCEMENT AND A SYSTEM FOR NANOPARTICLE DETECTION USING THE SAME www.google.com/patents/US20110220799.pdf ITEM[40] -- "...it is possible to reduce a critical dimension with respect to a wavelength to maximally lambda/10,000. This is enormous focusing degree of one hundred million times the intensity or energy of the electromagnetic wave.
