scispace - formally typeset
F

Fred S. Hickernell

Researcher at Motorola

Publications -  52
Citations -  1576

Fred S. Hickernell is an academic researcher from Motorola. The author has contributed to research in topics: Surface acoustic wave & Thin film. The author has an hindex of 20, co-authored 52 publications receiving 1557 citations. Previous affiliations of Fred S. Hickernell include University of Central Florida.

Papers
More filters
Patent

Method of making a monolithic thin film resonator lattice filter

TL;DR: In this article, a monolithic thin film resonator, lattice filter including spaced apart strips of a conductive film positioned on a substrate so as to define a first set of I/O terminals, a layer of piezoelectric material positioned on the conductive material, and spaced apart conductive strips of the material orthogonal to the first strips to form cross-over areas, each defining a thin-film resonator and a second set of terminals.
Journal ArticleDOI

dc triode sputtered zinc oxide surface elastic wave transducers

TL;DR: In this article, the properties of dc triode sputtered zinc oxide film transducers on fused quartz and oxidized silicon have been investigated at frequencies near 16 and above 200 MHz.
Journal ArticleDOI

Zinc Oxide Films for Acoustoelectric Device Applications

TL;DR: Avantages des dispositifs acoustoelectriques a ondes acoustiques de surface utilisant une couche piezoelectrique de ZnO deposee sur un substrat semiconducteur as discussed by the authors.
Journal ArticleDOI

Zinc-oxide thin-film surface-wave transducers

TL;DR: In this paper, the authors summarized a body of knowledge which has been developed on the characteristics of transducer quality ZnO film layers, and focused attention on those sputtering parameters and microstructural properties which characterize a superior surface-wave transducers.
Journal ArticleDOI

The experimental and theoretical characterization of the SAW propagation properties for zinc oxide films on silicon carbide

TL;DR: Theoretical analysis of HVPSAW has revealed the existence of a previously unknown high velocity SAW (HVSAW), which has been analyzed as functions of depth and confirmed its pure surface, one-partial character.