Key Responsibilities: 1.Design and Development of RF MEMS Devices: Develop and fabricate BAW, FBAR, and other RF MEMS devices for frequency control, filtering, and signal processing in wireless systems. 2.MEMS Process Development: Optimize microfabrication processes (e.g., lithography, etching, deposition) for high-performance RF MEMS components. 3.Device Simulation and Modeling: Perform extensive simulations and modeling of RF MEMS resonators (BAW, FBAR) to predict device behavior and optimize performance. 4.High-Frequency Characterization: Conduct high-frequency testing and characterization of RF MEMS devices, including parameters such as resonant frequency, quality factor (Q), insertion loss, and power handling. 5.Wireless System Integration: Collaborate with interdisciplinary teams to integrate RF MEMS devices into wireless communication systems and IoT applications. 6.Research Dissemination: Publish high-quality research papers and present findings at international conferences.
Qualifications: 1.A PhD in Electrical Engineering, Mechanical Engineering, or a related field with a strong emphasis on RF MEMS technology . 2.Expertise in BAW (Bulk Acoustic Wave) and FBAR (Film Bulk Acoustic Resonator) design, simulation, and fabrication. 3.Solid understanding of MEMS fabrication techniques such as photolithography, etching, and thin film deposition. 4.Strong knowledge of RF testing and characterization methods for MEMS devices, including the use of network analyzers, spectrum analyzers, and signal generators. 5.Experience with frequency control and filtering technologies in wireless communication systems. 6.Proven track record of publishing in high impact journals and presenting at RF and MEMS related conferences. 7.This position will be assigned to the postdoctoral research workstation of Guangdong CanChip Technology Co., Ltd.