|
plasmonics |
4 |
|
feibelman d-parameters |
3 |
|
nanophotonics |
3 |
|
(120.5790) sagnac effect |
1 |
|
(260.3160) interference |
1 |
|
(350.1370) berry's phase |
1 |
|
(350.5500) propagation |
1 |
|
adaptive algorithm |
1 |
|
aharonov{bohm |
1 |
|
anomalous dispersion |
1 |
|
artificial intelligence |
1 |
|
bias drift |
1 |
|
bias stability |
1 |
|
bound states in the continuum |
1 |
|
brewster effect |
1 |
|
cherenkov radiation |
1 |
|
color display |
1 |
|
coupled resonator induced transparency (crit) |
1 |
|
cylindrical triboelectric nanogenerator |
1 |
|
depolarizer |
1 |
|
displacement current |
1 |
|
distributed feedback laser |
1 |
|
double polarization |
1 |
|
dynamic simulation model |
1 |
|
earths rotation velocity |
1 |
|
electron beam lithography |
1 |
|
electron emitter array |
1 |
|
energy density |
1 |
|
energy harvesting system |
1 |
|
energy output efficiency |
1 |
|
expanded maxwell's equations |
1 |
|
feibelman d parameters |
1 |
|
fiber linear cavity |
1 |
|
fiber-optic gyrocope |
1 |
|
fiber-optic gyroscope |
1 |
|
fiber-optic gyroscope (fog) |
1 |
|
field-emitter array |
1 |
|
free-electron light sources |
1 |
|
free-electron radiation |
1 |
|
freestanding triboelectric nanogenerators |
1 |
|
frequency response |
1 |
|
graphene |
1 |
|
graphene-boron nitride heterostructure |
1 |
|
gray model |
1 |
|
gyroscope |
1 |
|
gyroscopes |
1 |
|
hinge mode |
1 |
|
imaging |
1 |
|
interference fiber optic gyroscope (ifog) |
1 |
|
interferometry |
1 |
|
laser linewidth |
1 |
|
light scattering |
1 |
|
light-matter interactions |
1 |
|
machine learning |
1 |
|
maxwell's displacement current |
1 |
|
measurement optimization |
1 |
|
metallic thin film |
1 |
|
metasurface |
1 |
|
metasurfaces |
1 |
|
minimal scheme |
1 |
|
multi-dimension |
1 |
|
multimode fiber |
1 |
|
multimode fiber (mmf) |
1 |
|
nanoantennas |
1 |
|
nanofabrication |
1 |
|
nanolaser |
1 |
|
nanoparticles |
1 |
|
nanostructures |
1 |
|
negative refraction |
1 |
|
non-abelian |
1 |
|
nonlocality |
1 |
|
octupole moment |
1 |
|
optical compensation |
1 |
|
optical fiber acoustic sensor |
1 |
|
optical nanoantennas |
1 |
|
optical phase modulation |
1 |
|
optics |
1 |
|
orthogonal structure |
1 |
|
output efficiency |
1 |
|
parallel feedback |
1 |
|
periodic structures |
1 |
|
perovskite |
1 |
|
phase modulation |
1 |
|
phonon polariton |
1 |
|
photocathode |
1 |
|
photonic crystals |
1 |
|
plasmon polariton |
1 |
|
plasmonic |
1 |
|
polarization control |
1 |
|
polarization maintaining fiber (pmf) |
1 |
|
posteriori estimation orthogonal demodulation |
1 |
|
power density |
1 |
|
purcell effect |
1 |
|
quadrature demodulation |
1 |
|
quantum plasmonics |
1 |
|
radiative efficiency |
1 |
|
random laser |
1 |
|
random media |
1 |
|
real projective space |
1 |
|
resonance |
1 |
|
resonance transition radiation |
1 |
|
ring resonator |
1 |
|
rotation sensing |
1 |
|
rotation sensor |
1 |
|
sagnac effect |
1 |
|
scattering |
1 |
|
scattering enhancement |
1 |
|
self-heterodyne |
1 |
|
self-heterodyne interferometer |
1 |
|
sensors |
1 |
|
simultaneous independent measurement |
1 |
|
spectral tunability |
1 |
|
spin–orbit interaction of light |
1 |
|
spontaneous emission |
1 |
|
superscattering |
1 |
|
surface-obstructed topological phase |
1 |
|
synthetic gauge fields |
1 |
|
teng arrays |
1 |
|
three-dimensional cylindrical mathematical model |
1 |
|
three-dimensional mathematical model |
1 |
|
three-dimensional topological circuit |
1 |
|
transition radiation |
1 |
|
triboelectric nanogenerators |
1 |
|
ultrafast |
1 |
|
ultrafast optics |
1 |
|
umklapp scattering |
1 |
|
unbiasedness |
1 |
|
wavelet |
1 |
