LENR could be a gateway into the theory of everything. The central dilemma at the very heart of LENR is what causes nuclear reactions at low energy levels.
But are the energies generated in LENR low, or are they potentially gigantic beyond the reach of any possible supercollider. Grand unification energy is something less than around 10^^16 GeV, Could LENR produce such high energies. Well at least the unification of the electroweak forces and the strong force might someday be possible. This force unification might be a possibility in view of some kinds of violent nuclear rearrangement seen in some LENR systems experiments. To start off with, what causes the nuclei of most elements to fall apart and reassemble their subatomic parts in new ways? Two new papers dealing with the nature and workings of the vacuum lend insight into the LENR question. http://arxiv.org/pdf/1302.6165.pdf *The quantum vacuum as the origin of the speed of light* http://arxiv.org/pdf/1301.3923v1.pdf *A sum rule for charged elementary particles* These papers suggest that the nature of the vacuum is defined by electromagnetic mechanisms revolving around the action of the constant creation and destruction of virtual dipoles. The nature of radioactive decay is also driven off the action of the virtual particle life cycle and its electromagnetic consequences. These papers also suggest that the nature of space/time can be changed and controlled by augmentation of this virtual dipole mechanism. It is generally recognized that the Fine Structure constant (FSC) is not really constant at all and can vary. If this FSC can be changed by as little as 4% either more or less, the delicate balance between the strong force and the electromagnetic force will fatally disrupt the forces inside the nucleus. A successful LENR system will setup a positive feedback loop that produces enhanced dipole production caused by enhanced electron tunneling. If the proper dipole production topology is created, dipole production begets enhanced electron tunneling and vice versa. In this way, an extreme dipole EMF field can be concentrated is a localized volume of space. The extreme dipole EMF fields thus produced gets so strong that the fabric of the vacuum within this nanoscopic localized volume is distorted to the point that the nuclei of atoms in that volume become unbalanced. The greatly enhanced and increased dipole EMF counteracts the actions of the strong force and the nuclei inside the localized volume bereft of the strong force will fall apart. The control of this strong force negation process is possible. Through the control of the dipole production topology, the amount of nuclear disruption is proportional to the strength of the dipole field, and this could be adjusted from slight to extreme. The next consideration to consider is how the dipole force can grow to such high levels that the resultant EMF can disrupt the internal mechanisms inside the nucleus. Each individual dipole is a member of a global mirrored Bose-Einstein condensate of polaritons and holes in which all the combined dipole EMF is available to each member of the global dipole ensemble in linear superposition as a quantum mechanical potential. This EMF is carried by virtual photons that can be in quantum mechanical linear superposition. When any given nucleus succumbs to the combined power of the global entangled dipole force, the superposition of the EMF photons is resolved and energy of the nuclear breakup is transferred coherently in micro quantities to the other members of the dipole ensemble. The BEC is immediately reestablished over the disrupted nucleus within the local volume of dipole EMF influence and the superpositions of potential nuclear disintegrations are restored globally throughout the system. Reference: http://arxiv.org/pdf/1203.1261v1 *Rydberg excitation of a Bose-Einstein condensate* Any nuclear reaction that produces a gamma that occurs in a BEC will undergo frequency reduction based on the super-atom formula Gamma frequency = Square root (Number of BEC atoms)(Thermalized frequency) The frequency of the gamma will be shared by N BEC member atoms. To conclude this discussion with an example, the BEC of positive mirrored ions in the dipole ensemble can be considered a huge positive particle effectively a billion times larger than a proton. But this super-positive particle is only a few nanomenters away from a give nucleus. This short distance exposes the localized linear volume to the full force of the EMF. That unfortunate nucleus would experience powerful disruptive EMF charge amplification which would make the space/time in the local nano-volume that the nucleus lived in a killing field for the nuclear forces that hold the nucleus together. If the BEC is scalable, how powerful can a Entangled Dipole EMF become? I can’t wait to find out. Reference: http://arxiv.org/pdf/1212.0135v1.pdf Is* quantum linear superposition an exact principle of nature?*
