Chemically etched resonant LGS microsensors

Materials like langasite (LGS), langatate (LGT) or gallium orthophosphate (GaPO 4 ) crystals have higher piezoelectric coefficients and also have a better high-temperature behaviour than quartz crystal. Thus they are worth being considered as a replacement for quartz in applications such as oscillat...

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Hauptverfasser:	Douchet, G, Medeira, O, Sthal, F, Leblois, T
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Chemicals Crystals Electrodes Etching Magnetic resonance Shape
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creator	Douchet, G Medeira, O Sthal, F Leblois, T
description	Materials like langasite (LGS), langatate (LGT) or gallium orthophosphate (GaPO 4 ) crystals have higher piezoelectric coefficients and also have a better high-temperature behaviour than quartz crystal. Thus they are worth being considered as a replacement for quartz in applications such as oscillators, piezoelectric accelerometers, microbalances or clocks. Length-extension resonators have already been manufactured using quartz crystal in order to get atomically-resolved imaging by frequency-modulation atomic force microscopy. The goal of this study is to obtain better results with langasite. It has been shown that LGS-crystal microsensors should have a sensitivity three times better than quartz crystal ones. This fact added to the existence of temperature-compensated cuts for the extensional mode of vibration is of prime importance for applications such as microcantilevers for frequency-modulation atomic force microscopes. This paper focuses on the fabrication of Langasite resonators with different cut angles around the temperature-compensated cuts both in length-extension and flexure mode.
doi_str_mv	10.1109/FREQ.2010.5556259
format	Conference Proceeding
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Thus they are worth being considered as a replacement for quartz in applications such as oscillators, piezoelectric accelerometers, microbalances or clocks. Length-extension resonators have already been manufactured using quartz crystal in order to get atomically-resolved imaging by frequency-modulation atomic force microscopy. The goal of this study is to obtain better results with langasite. It has been shown that LGS-crystal microsensors should have a sensitivity three times better than quartz crystal ones. This fact added to the existence of temperature-compensated cuts for the extensional mode of vibration is of prime importance for applications such as microcantilevers for frequency-modulation atomic force microscopes. 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subjects	Chemicals Crystals Electrodes Etching Magnetic resonance Shape
title	Chemically etched resonant LGS microsensors
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