Title :
1.51-GHz nanocrystalline diamond micromechanical disk resonator with material-mismatched isolating support
Author :
Wang, Jing ; Butler, Jarnes E. ; Feygelson, Tatyana ; Nguyen, Clark T C
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Michigan Univ., Ann Arbor, MI, USA
Abstract :
The first CVD nanocrystalline diamond micromechanical disk resonator with material-mismatched stem has been demonstrated at a record frequency of 1.51 GHz with an impressive Q of 11,555, which is more than 7X higher than demonstrated in a previous 1.14-GHz polysilicon disk resonator, and which achieves a frequency-Q product of 1.74×1013 that now exceeds the 1×1013 of some of the best quartz crystals. In addition, a 1.27-GHz version with a Q in the excess of 12,000 exhibits a measured motional resistance of only 100 kΩ with a dc-bias voltage of 20 V, which is more than 34X lower than measured on a pure polysilicon counterpart at 1.14 GHz. At 498 MHz, Q´s up to 55,300 in vacuum and 35,550 in air have been demonstrated, both of which set frequency-Q product records at 2.75×1013 (vacuum) and 1.77×1013 (air).
Keywords :
CVD coatings; crystal resonators; diamond; elemental semiconductors; micromechanical resonators; nanostructured materials; quartz; silicon; 1.14 GHz; 1.27 GHz; 1.51 GHz; 100 kohm; 20 V; 498 MHz; C; CVD nanocrystalline diamond micromechanical disk resonator; Si; chemical vapour deposition; dc-bias voltage; frequency Q product; material mismatched isolation; polysilicon disk resonator; quartz crystals; Acoustic materials; Electrical resistance measurement; Frequency measurement; Impedance; Micromechanical devices; Q measurement; Radio frequency; Resonator filters; Shape measurement; Telephone sets;
Conference_Titel :
Micro Electro Mechanical Systems, 2004. 17th IEEE International Conference on. (MEMS)
Print_ISBN :
0-7803-8265-X
DOI :
10.1109/MEMS.2004.1290666
