High performance thin film bulk acoustic resonator covered with carbon nanotubes | Zendy

Mircea Dragoman | Zendy; A. Müller | Zendy; D. Neculoiu | Zendy; D. Vasilache | Zendy; G. Konstantinidis | Zendy; K. Grenier | Zendy; David Dubuc | Zendy; L. Bary | Zendy; R. Plana | Zendy; Emmanuel Flahaut | Zendy

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High performance thin film bulk acoustic resonator covered with carbon nanotubes

Author(s) -

Mircea Dragoman,

A. Müller,

D. Neculoiu,

D. Vasilache,

G. Konstantinidis,

K. Grenier,

David Dubuc,

L. Bary,

R. Plana,

Emmanuel Flahaut

Publication year - 2006

Publication title -

applied physics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.182

H-Index - 442

eISSN - 1077-3118

pISSN - 0003-6951

DOI - 10.1063/1.2358838

Subject(s) - resonator , materials science , carbon nanotube , acoustic impedance , thin film , electrical impedance , acoustic wave , q factor , young's modulus , electrode , nanotube , optoelectronics , composite material , acoustics , nanotechnology , electrical engineering , chemistry , physics , engineering

This letter presents experimental results concerning a thin film bulk acoustic wave resonator realized on a thin GaN membrane and covered with a thin film of double walled carbon nanotube mixture. The quality factor was measured before and after the coating of the resonator with the nanotube thin film. The quality factor has increased more than ten times when the resonator was coated with nanotubes, due to their high elasticity modulus and low density, which confers a much higher acoustic impedance of the resonator electrodes and thus confines much better the longitudinal acoustic standing waves inside the resonator

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