High-energetic nano-cluster plasmoid and its soft X-ray radiation

Artificial stable microwave (MW) plasmoids were obtained and studied by Kapitsa in swirl gas flow. This MW plasmoid had unusual physical properties close to those of natural ball lightning. We studied the physical parameters and properties of a longitudinal heterogeneous plasmoid (plasma formation with erosive nano-clusters) created by capacity coupled high-frequency (HF) discharge in high-speed swirl flow in our previous papers. These nano-clusters were created by an electrode’s erosion in a plasma reactor. Measurement of the power balance of this heterogeneous plasmoid is very important for aluminium–hydrogen power energetics, using a new plasma generator with high coefficient of performance (COP). This work is a continuation of our previous work. We determined that there is extra power released in heterogeneous plasmoids created by combined discharge (HF discharge + DC discharge). The measured COP in this plasmoid is about 2–10. We suppose that this extra power release in a heterogeneous plasmoid is connected with LENR. The obtained experimental results (COP, optical spectra, soft X-ray spectra, chemical composition of dusty particles) prove our suggestion. It was revealed that a heterogeneous non-equilibrium plasmoid creates intensive soft X-ray radiation (with quantum energy about 1–10 keV). We determined that excited and charged cluster particles are responsible for this soft X-ray radiation creation, to be exact. Parameters of heterogeneous non-equilibrium plasmoid (Ne, Te, TV, TR and others) were measured in the experimental plasma vortex reactor (PVR). The main goals of this work are the following: (1) Creation of plasma-chemical vortex reactor (PVR) with high COP. (2) Obtaining of the key experimental results in this reactor for the future theoretical LENR model creation based on the PVR’s operation. © 2016 ISCMNS. All rights reserved.