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Properties of aluminum nitride thin films for piezoelectric transducers and microwave filter applications

Paul Muralt
1999
Journal paper
Abstract

Aluminum nitride thin films have been grown by reactive magnetron sputter technique using a pulsed power supply. The highly (002)-textured columnar films deposited on platinized silicon substrates exhibited quasi-single-crystal piezoelectric properties. The effective d(33) was measured as 3.4 pm/V, the effective e(31) as 1.0 C/m(2). The pyroelectric coefficient turned out to be positive (4.8 mu C m(-2) K-1) due to a dominating piezoelectric contribution. Thin-film bulk acoustic resonators (TFBAR) with fundamental resonance at 3.6 GHz have been fabricated to assess resonator properties. The material parameters derived from the thickness resonance were a coupling factor k=0.23 and a sound velocity v(s) = 11 400 m/s. With a quality factor Q of 300, the TFBARs proved to be apt for filter applications. The temperature coefficient of the frequency could be tuned to practically 0 ppm/K. (C) 1999 American Institute of Physics. [S0003-6951(99)01620-4].

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