Keyphrases
Lithium Niobate
100%
Resonator
53%
Thin-film Lithium Niobate
35%
Insertion Loss
24%
MEMS Resonator
24%
Acoustic Delay Line
22%
Electromechanical Coupling
21%
Fractional Bandwidth
20%
Wideband
19%
Micro-electro-mechanical Systems
18%
Low Loss
18%
Lithium Niobate Thin Film
17%
Radio Frequency
14%
Spurious Modes
14%
Acoustics
13%
Nitrides
13%
High Electromechanical Coupling
12%
Acoustic Resonator
11%
Laterally Vibrating Resonators
11%
Center Frequency
10%
Radio Frequency Microelectromechanical Systems (RF MEMS)
10%
Quality Factor (Q-factor)
9%
Acoustic Waves
9%
Delay Line
8%
Chip-scale
8%
A1 Mode
7%
Z-cut
7%
SH0 Mode
7%
First-order
7%
Low Insertion Loss
7%
Microring Resonator
7%
Nonreciprocal Network
7%
Temperature Coefficient of Frequency
7%
LiNbO3 Thin Film
6%
RF Filter
6%
Self-rolled-up
6%
Overmoded
6%
Low Power
6%
S0 Mode
6%
Lateral Overtone Bulk Acoustic Resonator
6%
Spurious-free
6%
Lamb Wave Resonator
6%
Antisymmetric Mode
5%
Overtone
5%
High Performance
5%
Shear Horizontal
5%
Phase Velocity
5%
Acoustic Filters
5%
X-band
5%
Wake-up
5%
Engineering
Resonator
83%
Thin Films
54%
Microelectromechanical System
45%
Electric Delay Lines
32%
Insertion Loss
30%
Radio Frequency
25%
Piezoelectric
21%
Fractional Bandwidth
19%
Transducer
13%
Q Factor
13%
Front End
12%
Nitride
11%
Figure of Merit
11%
Quality Factor
10%
Overtone
9%
Lamb Wave
8%
Micro-Electro-Mechanical System
8%
Phase Noise
7%
Internet of Things
7%
Surface Acoustic Wave
6%
Temperature Coefficient
6%
Antisymmetric Mode
5%
Filtration
5%
X-Band
5%