Plasma generator and internal combustion engine

The invention claimed is: 1. A plasma generator comprising: an ignition coil for supplying a discharge voltage; an EM-wave oscillator for oscillating EM waves; a mixer comprising a connection pipe to which the EM waves are supplied from the EM-wave oscillator and configured to mix an energy for discharge and an EM wave energy; and an ignition plug comprising an insulator, a center electrode, and a terminal and configured to cause the discharge and to introduce the EM wave energy to a reaction region where a combustion reaction or a plasma reaction is carried out, wherein the plasma generator initiates the combustion reaction and the plasma reaction in the reaction region using the energies of discharge and EM waves, and at least part of the connection pipe of the mixer is inserted into the ignition plug such that at least part of the insulator, the center electrode or the terminal that constitute the ignition plug forms an electrical coupling that constitutes part of the mixer in the ignition plug. 2. The plasma generator as claimed in claim 1 , wherein the electrical coupling comprises a capacitive coupling or a combination of capacitive coupling and inductive coupling. 3. The plasma generator as claimed in claim 1 , wherein the capacitive coupling includes a capacitor configured by tip part of a tubular transmission path of the mixer connected to the EM wave oscillator and a center electrode of the ignition plug. 4. The plasma generator as claimed in claim 1 , wherein a resonator for preventing EM wave leakage is provided on a circuit connecting the ignition coil and the mixer. 5. The plasma generator as claimed in claim 4 , wherein the resonator employs a resonance structure of either quarter electricity length of even order harmonic waves or quarter electricity length of odd order harmonic waves. 6. The plasma generator as claimed in claim 4 , wherein the resonance frequency is adjustable by adjusting the position, inner diameter, outer diameter, length, thickness, or dielectric constant of the resonator. 7. The plasma generator as claimed in claim 1 , wherein an EM wave exterior leakage prevention component is arranged on the inner circumference surface of a plughole for attaching the ignition plug or on the outer circumference surface of the plasma generator. 8. The plasma generator as claimed in claim 1 , wherein a resonating circuit that resonate an EM wave oscillated from the EM wave oscillator. 9. The plasma generator as claimed in claim 8 , wherein the resonating circuit employs a resonance structure of quarter electricity length of the EM wave oscillated from the EM wave oscillator. 10. The plasma generator as claimed in claim 1 , further comprising: an amplifying circuit which amplifies the EM wave outputted from the EM wave oscillator, wherein a stub having a width of ⅛ electricity length of the EM waves oscillated from the EM wave oscillator is provided in the center path of the amplifier. 11. An internal combustion engine comprising the plasma generator as claimed in claim 1 .