A well tuned laser or “gamma laser” or x-ray laser will also change potential energy of an excited (radioactive) nucleon and induce decay to a stable nucleon. The tuning of the incident EM photon frequency is necessary to achieve penetration through the electronic cloud without significant loss of intensity of the EM fields associated with the incident photon.
Alignment of the target nucleons in a magnetic field (if they have a magnetic moment) will improve photon/nucleon reaction rates, particularly if the incident photon direction is controlled relative to the alignment of the target nucleons. Quadrupole magnetic states of nucleons are also susceptible to stimulated changes to stable nucleon configurations. These energy states may be easier to stimulate given their lower differential energies and, thus, lower incident EM photon energies. Bob Cook ________________________________ From: JonesBeene <[email protected]> Sent: Sunday, March 25, 2018 3:30:15 PM To: [email protected] Subject: RE: [Vo]:The Purcell Effect There is also the Barker effect. This is an altered radioactive decay rate due to high static voltage. The patent is here. It has been widely replicated but has found no commercial niche. https://patents.google.com/patent/US5076971 From: Axil Axil<mailto:[email protected]> Purcell effect https://en.wikipedia.org/wiki/Purcell_effect For particle physicists whose entire standard model assumes that decay rates cannot be influenced by external factors, the Purcell effect is a puzzle. The Purcell effect is a condition that has perplexed science which lays smack dab in the middle of one of the miracles of the LENR reaction. In science, It has long been asserted that nuclear decay rates are constant and cannot be affected by anything. https://www.sciencedaily.com/releases/2014/10/141010083857.htm Old textbook knowledge reconfirmed: Decay rates of radioactive substances are constant This assertion has been used by the critics of the LENR reaction to undercut the validity of what experiments have shown when the LENR reaction was in progress. But the Purcell effect discounts the logic of this LENR criticism. The Purcell effect states that the decay rate of a radioactive isotope is affected by light trapped in an optical cavity. This nuclear decay rate can either increase or decrease by a factor up to 50 times. https://physics.aps.org/synopsis-for/10.1103/PhysRevLett.120.122501 Controlling the Rate of Nuclear Decay The maximum effect is achieved when a dark mode of light emissions from the optical cavity is achieved. This mode is when light is maintained inside the cavity and does not radiate out. An important condition that must exist in both the LENR reaction and the Purcell effect is that this effect exists in nano-cavities in metal. But what is more disconcerting is that the nuclear decay rate can either increase or decrease by a factor of 50. There is something that exists in an optical cavity that can affect nuclear processes. What can it be and how does it do it. Well it is our old LENR friend, the Surface Plasmon Polariton (SPP). The SPP can produce nuclear effects and does it best when it is in dark mode. But how can the SPP stop a radioactive isotope from decaying? The SPP is formed by two counter rotating currents of polaritons. These currents are polarized in terms of handedness. Right-handed particles don’t decay, only left-handed particles decay. https://www.nature.com/articles/524008b Particle physics: Only left-handed particles decay When a radioactive nucleus is converted by the SPP into a right handed particle, it cannot decay. But when the nucleus is converted by the SPP into a left handed particle, it decays so fast that the radioactive nucleus stabilizes immediately. The chirality of particles explains how LENR can stabilize radioactive waste. LENR is all about the handedness (chirality) of particles.
