Title :
P1F-2 Effects of Electromagnetic Radiation on the Q of Quartz Resonators
Author :
Patel, Mihir ; Yong, Yook-Kong ; Vig, John ; Ballato, Arthur
Author_Institution :
Rutgers Univ., Piscataway
Abstract :
Two finite element models of a resonator were employed to investigated electromagnetic radiation on the resonator Q. The two models employed the governing equations for viscopiezoelectricity and viscopiezoelectromagnetism, respectively. The models showed decreasing Q with frequency increase. The Q of the viscopiezoelectric model compared well with the empirical formula for the Q of quartz AT-cut resonators. At frequencies in excess of 2 GHz, the Q of the viscopiezoelectromagnetic model showed increasing difference from the Q of the viscopiezoelectric model. The electromagnetic radiation loss took up an increasing percentage in the loss of Q with frequency increase in excess of 2 GHz. At 3.3 GHz, it took up about 14% of the loss in Q.
Keywords :
Q-factor; crystal resonators; electromagnetism; finite element analysis; losses; micromechanical resonators; microwave devices; piezoelectricity; radiation effects; viscoelasticity; SiO2; electromagnetic radiation effects; electromagnetic radiation loss; empirical formula; finite element models; frequency 3.3 GHz; quartz resonator Q; viscopiezoelectricity model; viscopiezoelectromagnetism model; Conducting materials; Elasticity; Electromagnetic modeling; Electromagnetic radiation; Energy loss; Equations; Magnetic losses; Resonant frequency; Tensile stress; Viscosity;
Conference_Titel :
Ultrasonics Symposium, 2007. IEEE
Conference_Location :
New York, NY
Print_ISBN :
978-1-4244-1384-3
Electronic_ISBN :
1051-0117
DOI :
10.1109/ULTSYM.2007.349
