| 摘要 |
PROBLEM TO BE SOLVED: To optimize the pressure generation of the tail part of a missile, and improve the efficiency of dielectric chemistry acceleration by utilizing the interaction between a dielectric reactant such as gunpowder being installed near the rear part of the missile and a powerful electromagnetic wave, and by controlling the chemical reaction and thermal reaction of the dielectric reactant for inducing. SOLUTION: When an electromagnetic-wave source 4 is activated, an electromagnetic wave passes through a cock 1a for entering an acceleration pipe 1, and a reactant 2a near the tail part of a missile 3 is instantly induced and heated for high-pressure vaporization, thus filling the back-tail space of the missile 3 with high-pressure gas, and starting the missile 3. Then, when the back tail of the missile 3 passes through an adjacent reactant 2b, the reactant 2b is induced and heated for the high-pressure vaporization, and the missile 3 is continuously accelerated. More specifically, generally, when the missile 3 passes through an nth reactant 2n, the same action occurs, and the missile 3 is continuously accelerated. On the other hand, the missile 3 functions as the reflector of the electromagnetic wave in the acceleration pipe 1, and is used as the switch of the electromagnetic wave for each of the reactants 2a-2n.
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