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Dynamical behavior of trampoline membranes
M.H.J. de Jong
QN/Groeblacher Lab
Dynamics of Micro and Nano Systems
Research output
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Thesis
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Dissertation (TU Delft)
280
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Dive into the research topics of 'Dynamical behavior of trampoline membranes'. Together they form a unique fingerprint.
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Weight
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Engineering
Membrane
100%
Dynamical Behavior
100%
Experiments
75%
Resonator
62%
Substrates
50%
Nitride
25%
Q Factor
25%
Standing Wave
12%
Sensor
12%
Sensing Application
12%
Measurement
12%
Delay Time
12%
Characterization Method
12%
Destructive Interference
12%
Optical Cavity
12%
Technical Requirement
12%
Light Field
12%
Cavity
12%
Mechanical Response
12%
Design
12%
Detection
12%
Phase Shift
12%
Thermal Noise
12%
Highlight
12%
Frequency Motion
12%
Noise Cancellation
12%
Reduction
12%
Nonlinear Parameter
12%
Optical Field
12%
INIS
membranes
100%
resonators
62%
substrates
50%
motion
50%
interactions
50%
cavities
25%
noise
25%
silicon nitrides
25%
design
12%
phase shift
12%
traps
12%
cancellation
12%
applications
12%
reduction
12%
standing waves
12%
coupling
12%
optical properties
12%
nonlinear problems
12%
investigations
12%
detection
12%
sensors
12%
interference
12%
time delay
12%
lifetime
12%
periodicity
12%
brownian movement
12%
signals
12%
Physics
Behavior
100%
Membrane
100%
Resonator
62%
Substrates
50%
Silicon Nitride
25%
Q Factor
25%
Detection
25%
Optical Properties
12%
Utilization
12%
Coherence
12%
Noise Cancellation
12%
Independent Variables
12%
Standing Wave
12%
Regime
12%
Response
12%
Periodic Variation
12%
Brownian Motion
12%
Interference
12%
Shapes
12%
Keyphrases
Near-degenerate
100%
Substrate Modes
100%
Dielectrophoretic Force
33%
Material Science
Membrane
100%
Resonator
62%
Silicon Nitride
25%
Optical Property
12%
Characterization
12%