|
achievement emotions |
15 |
|
interprofessional education |
13 |
|
cluster analysis |
11 |
|
healthcare students |
11 |
|
interprofessional collaboration |
11 |
|
person-centred analysis |
11 |
|
imaging flow cytometry |
10 |
|
quantitative phase imaging |
10 |
|
collaboration perception |
9 |
|
health professions education |
9 |
|
interprofessional identity |
9 |
|
medical education |
9 |
|
microfluidics |
8 |
|
application |
7 |
|
healthcare education |
7 |
|
imaging systems |
7 |
|
microscopy |
7 |
|
time-stretch imaging |
7 |
|
validation |
7 |
|
single-cell imaging |
6 |
|
single‐cell imaging |
6 |
|
ultrafast imaging |
6 |
|
cell imaging |
5 |
|
deep learning |
5 |
|
fluorescence microscopy |
5 |
|
label-free biophysical phenotyping |
5 |
|
single-cell analysis |
5 |
|
ultrafast laser scanning |
5 |
|
ultrafast single cell imaging |
5 |
|
ultrafast technology |
5 |
|
wavelength conversion |
5 |
|
balanced detection |
4 |
|
biomedical problems |
4 |
|
biophotonics |
4 |
|
brain connectivity |
4 |
|
bright field imaging |
4 |
|
cell classification |
4 |
|
clinical translation |
4 |
|
coherent raman scattering |
4 |
|
convolutional neural network |
4 |
|
environmentally sensitive |
4 |
|
epithelial–mesenchymal transition |
4 |
|
fmri |
4 |
|
high throughput. |
4 |
|
high-speed microfluidic |
4 |
|
imaging cytometry |
4 |
|
label-free |
4 |
|
low frequency |
4 |
|
medical and biological imaging |
4 |
|
multiclass classification |
4 |
|
nonlinear optics |
4 |
|
optical parametric amplification |
4 |
|
optical time-stretch imaging |
4 |
|
optofluidics |
4 |
|
optogenetic |
4 |
|
pulse stretching |
4 |
|
supercontinuum generation |
4 |
|
thalamus |
4 |
|
ultrafast frame rate |
4 |
|
water |
4 |
|
adc |
3 |
|
bessel beam |
3 |
|
cell image classification |
3 |
|
clss |
3 |
|
computerized tomography |
3 |
|
contrast enhancement |
3 |
|
conventional methods |
3 |
|
convolutional neural network (cnn) |
3 |
|
cortes |
3 |
|
dispersive fourier transformation (dft) |
3 |
|
engineering |
3 |
|
extended depth of field |
3 |
|
fast volumetric imaging |
3 |
|
fiber-optical parametric amplifier (fopa) |
3 |
|
field-programmable gate array (fpga) |
3 |
|
four-wave mixing |
3 |
|
fpga |
3 |
|
frequency |
3 |
|
functional mri |
3 |
|
hardware architecture |
3 |
|
high-throughput |
3 |
|
high-throughput screening |
3 |
|
hippocampus |
3 |
|
image coding |
3 |
|
image cytometry |
3 |
|
image detection systems |
3 |
|
image resolution |
3 |
|
image structures |
3 |
|
issue 124 |
3 |
|
laser scanning fluorescence microscopy |
3 |
|
laser-scanning microscopy |
3 |
|
lasers |
3 |
|
lateral resolution |
3 |
|
light scattering |
3 |
|
line scan super resolution |
3 |
|
low-latency inference |
3 |
|
microfluidic |
3 |
|
microfluidic fabrication |
3 |
|
molluscs |
3 |
|
multiple orders |
3 |
|
near-infrared region |
3 |
|
optical microscopy |
3 |
|
optical parameter |
3 |
|
optical signal processing |
3 |
|
penetration ability |
3 |
|
photoacoustic microscopy |
3 |
|
photons |
3 |
|
propagation direction |
3 |
|
scanners |
3 |
|
side lobes |
3 |
|
signal-to-noise ratio |
3 |
|
somatosensory |
3 |
|
spectroscopy |
3 |
|
speed limit |
3 |
|
supercontinuum (sc) generation |
3 |
|
swept-source |
3 |
|
temporal coherence |
3 |
|
time factors |
3 |
|
time-stretch microscopy |
3 |
|
two-photon microscopy |
3 |
|
ultra-fast |
3 |
|
ultrafast label-free imaging |
3 |
|
volumetric imaging |
3 |
|
wavelength conversion devices |
3 |
|
a-frames |
2 |
|
active control |
2 |
|
airy beams |
2 |
|
all-optical signal processing |
2 |
|
asymmetric detection |
2 |
|
backaction force |
2 |
|
beating effects |
2 |
|
biomedical diagnostics |
2 |
|
broadband sources |
2 |
|
cavity resonators |
2 |
|
continuous wave |
2 |
|
continuous waves |
2 |
|
continuous-wave triggered supercontiuum |
2 |
|
correlation map |
2 |
|
depth information |
2 |
|
depth-resolved |
2 |
|
dielectric particle |
2 |
|
differential detection |
2 |
|
digitizers |
2 |
|
dispersion compensation |
2 |
|
dispersion-compensation fibers |
2 |
|
dispersive fibers |
2 |
|
dispersive fourier transform |
2 |
|
dispersive wave |
2 |
|
excitation light |
2 |
|
eye - cytology |
2 |
|
femtosecond fiber lasers |
2 |
|
few-mode fibers |
2 |
|
fiber |
2 |
|
fiber design and fabrication |
2 |
|
fiber lasers |
2 |
|
fiber nonlinear optics |
2 |
|
fiber optics imaging |
2 |
|
fingers |
2 |
|
fishes |
2 |
|
four-wave mixing (fwm) |
2 |
|
frame-rate |
2 |
|
group velocity dispersion |
2 |
|
high order mode |
2 |
|
high-resolution imaging |
2 |
|
higher order |
2 |
|
higher-order modes |
2 |
|
histological imaging |
2 |
|
hyperspectral coherent anti-stokes raman scattering |
2 |
|
image collections |
2 |
|
laser beams |
2 |
|
laser excitation |
2 |
|
laser mode locking |
2 |
|
minute continuous-wave seeding |
2 |
|
mode locking |
2 |
|
mode-locked fiber laser |
2 |
|
multiple pulses distribution |
2 |
|
narrative visualisation |
2 |
|
negative optical force |
2 |
|
normal dispersion pumping |
2 |
|
optical buffering |
2 |
|
optical coherence tomography |
2 |
|
optical fiber amplifiers |
2 |
|
optical fiber couplers |
2 |
|
optical fiber dispersion |
2 |
|
optical manipulation |
2 |
|
optical soliton molecule |
2 |
|
optical time-stretch |
2 |
|
optical wavelength conversion |
2 |
|
orthogonal basis |
2 |
|
patterned illumination |
2 |
|
period doubling |
2 |
|
phase |
2 |
|
phase retrieval |
2 |
|
photonic nanojet |
2 |
|
photonics |
2 |
|
physics |
2 |
|
phytoplankton |
2 |
|
picoseconds |
2 |
|
principle component analysis |
2 |
|
pump light |
2 |
|
raman effect |
2 |
|
raman scattering |
2 |
|
real-time bio-imaging |
2 |
|
single cell analysis |
2 |
|
single mode fibers |
2 |
|
single-cell data visualisation |
2 |
|
spatial-single cell integration |
2 |
|
spectral acquisition |
2 |
|
spectral coherence |
2 |
|
stain-free |
2 |
|
stimulated raman scattering |
2 |
|
stringent requirement |
2 |
|
super resolution |
2 |
|
supercontinuum generations |
2 |
|
supercontinuum sources |
2 |
|
swept source |
2 |
|
switching wavelength |
2 |
|
temporal stability |
2 |
|
tomography, optical coherence - methods |
2 |
|
ultra-fast imaging |
2 |
|
ultrafast |
2 |
|
ultrafast fiber lasers |
2 |
|
ultrafast measurement |
2 |
|
ultrafast optics |
2 |
|
ultrafast real-time spectroscopy |
2 |
|
web application |
2 |
|
ytterbium mode-locked laser |
2 |
|
absorption |
1 |
|
amplifiers, electronic |
1 |
|
astrobiology |
1 |
|
bar codes |
1 |
|
biomedical engineering |
1 |
|
biomolecular basis |
1 |
|
biophysical cytometry |
1 |
|
biosensors |
1 |
|
cell biology |
1 |
|
chemicals and cas registry numbers |
1 |
|
cladding layer |
1 |
|
coherence |
1 |
|
computer simulation |
1 |
|
confocal microscopy |
1 |
|
conversion efficiency |
1 |
|
crystal lattices |
1 |
|
crystals |
1 |
|
detection sensitivity |
1 |
|
detector arrays |
1 |
|
diagnostic imaging - instrumentation - methods |
1 |
|
dispersive fiber |
1 |
|
electric power generation |
1 |
|
electromagnetic dispersion |
1 |
|
electromagnetic fields |
1 |
|
electron optics |
1 |
|
electronics - instrumentation |
1 |
|
endoscopes |
1 |
|
energy efficiency |
1 |
|
energy harvesting |
1 |
|
equipment design |
1 |
|
equipment failure analysis |
1 |
|
fiber optic technology - instrumentation |
1 |
|
finite difference method |
1 |
|
finite-difference time-domain |
1 |
|
fourier analysis |
1 |
|
fourier transformations |
1 |
|
frame rate |
1 |
|
general equations |
1 |
|
hemodynamics |
1 |
|
image enhancement - instrumentation |
1 |
|
in vivo imaging |
1 |
|
infrared radiation |
1 |
|
integrated optoelectronics |
1 |
|
internal stresses |
1 |
|
kerr effect |
1 |
|
laser therapy |
1 |
|
laser therapy - instrumentation |
1 |
|
lenses |
1 |
|
light |
1 |
|
light absorption |
1 |
|
magneto-optical kerr effect |
1 |
|
magneto-photonic crystals |
1 |
|
method of moments |
1 |
|
microgravity |
1 |
|
microscopy - instrumentation |
1 |
|
microscopy, confocal - instrumentation |
1 |
|
microspheres |
1 |
|
microstructure |
1 |
|
models, theoretical |
1 |
|
mouse brain |
1 |
|
multimodal cytometry |
1 |
|
multiphoton processes |
1 |
|
new high |
1 |
|
nonlinear equations |
1 |
|
optical amplifiers |
1 |
|
optical devices |
1 |
|
optical domains |
1 |
|
optical films |
1 |
|
optical frequency conversion |
1 |
|
optical instruments |
1 |
|
optical nonlinearity |
1 |
|
optical phase matching |
1 |
|
optical waveguides |
1 |
|
optical waveguides and silicon |
1 |
|
optics and photonics - instrumentation |
1 |
|
optimization |
1 |
|
optoelectronic devices |
1 |
|
periodically poled |
1 |
|
photonic band gap |
1 |
|
photovoltaic effect |
1 |
|
photovoltaic effects |
1 |
|
piezoelectric transducers |
1 |
|
probes |
1 |
|
q switched lasers |
1 |
|
quantum electronics |
1 |
|
quasi phase matching |
1 |
|
realtime imaging |
1 |
|
references (18) view in table layout |
1 |
|
refractive index |
1 |
|
refractometry - instrumentation |
1 |
|
resonance |
1 |
|
scattering, radiation |
1 |
|
semiconductor devices |
1 |
|
semiconductor junctions |
1 |
|
semiconductor lasers |
1 |
|
semiconductor materials |
1 |
|
sensitivity and specificity |
1 |
|
sensor networks |
1 |
|
signal processing, computer-assisted - instrumentation |
1 |
|
silicon |
1 |
|
silicon - chemistry - radiation effects |
1 |
|
silicon compounds |
1 |
|
silicon on insulator technology |
1 |
|
silicon photonics |
1 |
|
space health |
1 |
|
spatial resolution |
1 |
|
standardization |
1 |
|
strain gradients |
1 |
|
time domain analysis |
1 |
|
time measurement |
1 |
|
transducers |
1 |
|
tuning |
1 |
|
two-photon absorption |
1 |
|
two-photon fluorescence |
1 |
|
vasculature |
1 |
|
waveguides |
1 |
|
wavelength division multiplexing |
1 |
