An extended interaction oscillator (EIO) generating 120 GHz wave in sub-terahertz waves is studied by using the three-dimensional electromagnetic simulation software CST and PIC codes.A rectangular reentrant coupled-cavity is proposed as the slow-wave structure of EIO.By CST,the circuit parameters including frequency-phase dispersion,interaction impedance and characteristic impedance are simulated and calculated.The operation mode of EIO is chosen very close to the point where βL=2π with corresponding frequency 120 GHz,the beam voltage 12 kV and the dimensions of the cavity with the period 0.5 mm,the height 3 mm and the width 1.4 mm.Simulation results of beam-wave interaction by PIC show that the exciting frequency is 120.85 GHz and output peak power 465 W with 12-period coupled-cavity with the perveance 0.17 μP.Simulation results indicate that the EIO has very wide range of the operation voltage. An extended interaction oscillator (EIO) generating 120 GHz wave in sub-terahertz waves is studied by using the three-dimensional electromagnetic simulation software CST and PIC codes. A rectangular reentrant coupled-cavity is proposed as the slow-wave structure of EIO.By CST, the circuit parameters include frequency-phase dispersion, interaction impedance and characteristic impedance are simulated and calculated. The operation mode of EIO is chosen very close to the point where βL = 2π with corresponding frequency 120 GHz, the beam voltage 12 kV and the dimensions of the cavity with the period 0.5 mm, the height 3 mm and the width 1.4 mm. Simulation results of beam-wave interaction by PIC show that the exciting frequency is 120.85 GHz and output peak power 465 W with 12-period coupled-cavity with the perveance 0.17 μP. Simulation results indicate that the EIO has very wide range of the operation voltage.