High precision pressure sensors based on SAW devices in the GHz range

Anton; Assouar; Benetti; Buff; Bénédic; Campbell; Cullen; Dixon; Elmazria; F. Calle; Fujii; G.F. Iriarte; Iriarte; Iriarte; J.G. Rodríguez-Madrid; Kholkin; Lakin; Lee; Malshe; Mortet; Mortet; Nakahata; Nomura; O.A. Williams; Pohl; Ricco; Ro; Rodríguez-Madrid; Rodríguez-Madrid; Scherr; Schimetta; Setter; Tjiu; Tonisch; Uemura; Venema; Vlassov; Werner; Williams

research

High precision pressure sensors based on SAW devices in the GHz range

Authors: Anton
Assouar
Benetti
Buff
Bénédic
Campbell
Cullen
Dixon
Elmazria
F. Calle
Fujii
G.F. Iriarte
Iriarte
Iriarte
J.G. Rodríguez-Madrid
Kholkin
Lakin
Lee
Malshe
Mortet
Mortet
Nakahata
Nomura
O.A. Williams
Pohl
Ricco
Ro
Rodríguez-Madrid
Rodríguez-Madrid
Scherr
Schimetta
Setter
Tjiu
Tonisch
Uemura
Venema
Vlassov
Werner
Williams
Publication date: 1 January 2013
Publisher: 'Elsevier BV'
Doi

Abstract

In this paper, an AlN/free-standing nanocrystalline diamond (NCD) system is proposed in order to process high frequency surface acoustic wave (SAW) resonators for sensing applications. The main problem of synthetic diamond is its high surface roughness that worsens the sputtered AlN quality and hence the device response. In order to study the feasibility of this structure, AlN films from 150 nm up to 1200 nm thick have been deposited on free-standing NCD. We have then analysed the influence of the AlN layer thickness on its crystal quality and device response. Optimized thin films of 300 nm have been used to fabricate of one-port SAW resonators operating in the 10–14 GHz frequency range. A SAW based sensor pressure with a sensibility of 0.33 MHz/bar has been fabricated