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Lithium Niobate Phononic Crystals for Tailoring Performance of RF Laterally Vibrating Devices
Ruochen Lu
, Tomás Manzaneque
, Yansong Yang
,
Songbin Gong
Electrical and Computer Engineering
Micro and Nanotechnology Lab
Research output
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Contribution to journal
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Article
›
peer-review
Overview
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Dive into the research topics of 'Lithium Niobate Phononic Crystals for Tailoring Performance of RF Laterally Vibrating Devices'. Together they form a unique fingerprint.
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Engineering
Resonator
100%
Passbands
100%
Electric Delay Lines
100%
Thin Films
50%
Transducer
50%
Radio Frequency
50%
Piezoelectric
50%
Scattering Parameters
50%
Frequency Signal
50%
Equivalent Circuit Model
50%
Q Factor
50%
Band Gap
50%
Keyphrases
Lithium Niobate
100%
Phononic Crystal
100%
Vibrating Device
100%
Stopband
42%
Resonator
28%
Attenuation
28%
Delay Line
28%
S0 Mode
28%
Band Gap
14%
Acoustics
14%
Wideband
14%
Transmission Properties
14%
Acoustic Scattering
14%
S-parameters
14%
Equivalent Circuit Model
14%
Low Loss
14%
Reflection Properties
14%
Crystal Model
14%
Spurious Modes
14%
Lithium Niobate Thin Film
14%
Shear Horizontal
14%
Mason Model
14%
Reference Instrument
14%
Spurious Mode Suppression
14%
SH0 Mode
14%
Radiofrequency Signal Processing
14%
Material Science
Phononic Crystal
100%
Lithium Niobate
100%
Resonator
28%
Electronic Circuit
14%
Thin Films
14%
Piezoelectricity
14%
Transducer
14%