Keywords: 
• 探测 /
• 高功率微波 /
• 圆波导 /
• 硅 /
• 灵敏度

Abstract: Electric field response of silicon detecting chip within circular waveguide to several usual electromagnetic wave modes in X-band is studied numerically and theoretically.Based on the hot carrier effect under high electric field,a silicon detec-ting structure is proposed to measure the high power microwave (HPM)pulse within circular waveguide in real time.Then cross-sectional electric field distributions are simulated and analyzed when HPMs with TE11 mode (with two orthogonal polarization di-rections),TM01 mode and TE01 mode are applied respectively by using the three dimensional parallel finite-difference time-domain (FDTD)method.Results of different modes show that the transverse electric fields are all dominated by radial components,and the amplitude ratios between radial and angular components are probably 10.The standing wave ratio of transverse electric field is no more than 1.3.At last,the sensitivities of the detecting structure for different modes in circular waveguide are derived. Therotical analysis indicates that the maximum enduring power of the detecting structure,which can reach as high as 422 MW,is dependent upon modes,and its response time is in the picosecond-level.It attests the feasibility of on-line measurements of X-band HPM pulses employing the designed detecting structure.