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High-Q micromechanical resonators for mass sensing in dissipative media
Kirsi Tappura
,
Panu Pekko
, Heikki Seppä
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
14
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Citations (Scopus)
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Keyphrases
Acoustic Energy
33%
Acoustic Mode
33%
Atmospheric Pressure
33%
Barrier Structure
33%
Design Aspects
33%
Design Quality
33%
Dissipation Mechanism
33%
Dissipative Medium
100%
Finite Element Method
33%
Fluid-filled
33%
Glass Type
33%
Mass Effect
33%
Mass Sensing
100%
Mass Sensitivity
33%
Micromechanical Resonator
100%
Multicrystalline Silicon
33%
Rectangular Resonator
33%
Resonator
100%
Silicon-based
33%
Viscous Drag
33%
Wine Glass
33%
INIS
acoustics
33%
air
16%
atmospheric pressure
16%
barriers
16%
design
33%
distribution
16%
drag
16%
energy
16%
finite element method
16%
fluids
16%
glass
16%
liquids
16%
loading
16%
performance
16%
plates
16%
quality factor
16%
radiations
16%
resonators
100%
sensitivity
33%
silicon
16%
simulation
16%
single crystals
16%
wine
16%
Engineering
Acoustic Energy
16%
Acoustic Mode
16%
Atmospheric Pressure
16%
Design Aspect
16%
Design Quality
16%
Finite Element Analysis
16%
Good Agreement
16%
Q Factor
100%
Resonator
100%
Silicon Single Crystal
16%
Material Science
Finite Element Methods
16%
Glass Type
16%
Resonator
100%
Silicon
16%
Single Crystal
16%