Polarization Standing Wave Cavity Assisted By Anisotropic Structures

UC Case No. 2017-878

SUMMARY

Researchers in the Department of Electrical Engineering have developed a cavity demonstrating resonance through polarization standing waves.

BACKGROUND

Resonator is one of the fundamental building blocks for microwave and RF devices. Conventional resonators, such as microstrip resonators, are limited by their low RF handling power and quality factor, Q, a parameter associated with energy losses within the cavity. Other resonators, such as waveguide resonators, have higher quality factors but tuning their frequency is difficult.

INNOVATION

Researchers at UCLA have developed a cavity resonator with high RF power handling, high quality factor, and easy tunability. The waveguide cavity demonstrates resonance through a polarization standing wave, resulting in cavity size reduction. The resonator quality factor is 60X greater than microstrip resonators. The easy frequency tunability creates a structure much cheaper than conventional waveguide cavities and provides an easier and more robust frequency tuning mechanism for mm-waves and THz region.

APPLICATIONS

• Wireless communications
• Microwave and RF devices (i.e. lasers, photodetectors)

ADVANTAGES

• Quality factor 60 times greater than microstrip resonators
• Greatly reduced cavity size
• Cheaper than conventional waveguide cavities
• Easier implementation for tuning frequency at high frequency

RELATED MATERIALS

• Li, Xiaoqiang, Mohammad Reza Memarian and Tatsuo Itoh. “A new resonance in a circular waveguide cavity assisted by anisotropic metasurfaces.” 2017 IEEE MTT-S International Microwave Symposium (IMS) (2017): 1801-1803.
• D. Chen, L. Xu, C. Curwen, M. Memarian, J. Reno, T. Itoh, & B. Williams. “Metasurface Terahertz Laser With Electronically-Controlled Polarization.” CLEO: QELS Fundamental Science, 2017, FTu4G.
• M.L. Chen, L.J. Jiang, E.I. Wei, W.C. Choy, & T. Itoh. “Polarization Control by Using Anisotropic 3-D Chiral Structures. IEEE Transactions on Antennas and Propagation.” 64(11), 2016, 4687.