Compositionally graded ferroelectric multilayers for frequency agile tunable devices

Journal of Materials Science

Volumn 44, Issue 19, 2009, Pages 5364-5374

  Weiss, C V ^a   Okatan, M B ^a   Alpay, S P ^a   Cole, M W ^b   Ngo, E ^b   Toonen, R C ^b  

^a UNIVERSITY OF CONNECTICUT   (United States)

^b U S ARMY RESEARCH LABORATORY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

BARIUM STRONTIUM TITANATE; DIELECTRIC PERMITTIVITIES; DIELECTRIC RESPONSE; DIELECTRIC TUNABILITY; DISSIPATION FACTORS; ELECTRICAL MEASUREMENT; FERROELECTRIC LAYERS; FERROELECTRIC MULTILAYER; FREQUENCY AGILE; HETEROSTRUCTURES; INTERLAYER INTERACTIONS; LOSS CHARACTERISTICS; LOW DIELECTRIC LOSS; MATERIALS SYSTEMS; METALLO-ORGANIC; MICROWAVE REGIME; MULTI-LAYERED FILMS; MULTILAYER HETEROSTRUCTURES; NOMINAL THICKNESS; NON-LINEAR; OPERATIONAL BANDWIDTH; OPTIMUM CONDITIONS; ROOM TEMPERATURE; SI SUBSTRATES; SMALL SIGNAL; TEMPERATURE INTERVALS; TEMPERATURE-INSENSITIVE; THEORETICAL STUDY; THERMAL EXPANSION COEFFICIENTS; THERMAL STRAIN; THERMODYNAMIC MODEL; TIO; TUNABILITIES; TUNABLE DEVICE; TUNABLE DIELECTRIC MATERIALS; VOLTAGE-CONTROLLED;

BARIUM; BARIUM TITANATE; CERAMIC CAPACITORS; DIELECTRIC DEVICES; DIELECTRIC LOSSES; DOPING (ADDITIVES); ELECTRIC POTENTIAL; FERROELECTRIC MATERIALS; FERROELECTRICITY; HETEROJUNCTIONS; MICROWAVES; PERMITTIVITY; PLATINUM; RANGE FINDING; STRONTIUM; STRONTIUM COMPOUNDS; SUBSTRATES; THERMAL EXPANSION; THERMAL STRESS;

MULTILAYERS;

EID: 68949172543     PISSN: 00222461     EISSN: 15734803     Source Type: Journal    
DOI: 10.1007/s10853-009-3514-8     Document Type: Article

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