Thermal Explosive Energy

Exposing the expelling " laser-primed " and " electrically charged " combustible gas ions (exiting from Gas Resonant Cavity ) to a thermal-spark or heat-zone causes thermal gas-ignition, releasing thermal explosive energy (gmt) beyond the Gas-Flame Stage , as illustrated in Figure (1-19) as to (1-18). 

 

 Figure (1-19) 

 

 

 

 Figure (1-18) 

 

 

 Thermal Atomic interaction (gmt) is caused when the combustible gas ions (from water) fail to unite or form a Covalent Link-up or Covalent Bond between the water molecule atoms as illustrated in Figure (1-19). 

 The oxygen atom having less than four covalent electrons ( Electron Extraction Process ) is unable to reach " Stable-State " ( six to eight covalent electrons required ) when the two hydrogen atoms seek to form the water molecule during thermal gas ignition. 

 The absorbed Laser energy (Va, Vb and Vc) weakens the " Electrical Bond " between the orbital electrons and the nucleus of the atoms; while, at the same time, electrical attraction-force (qq'), being stronger than "Normal" due to the lack of covalent electrons, " Locks Onto " and " Keeps " the hydrogen electrons. 

 These “ abnormal ” or “ unstable ” conditions cause the combustible gas ions to over compensate and breakdown into thermal explosive energy (gmt). 

 This Atomic Thermal-Interaction between highly energized combustible gas ions is hereinafter called " The Hydrogen Fracturing Process ." 

 By simply attenuating or varying voltage amplitude in direct relationship to voltage pulse-rate determines Atomic Power-Yield under controlled state.