Технические дисциплины и материаловедение
Chalcogenides
100%
Glass
60%
Erbium
43%
Energy transfer
41%
Ions
37%
Electronic states
30%
Superradiance
28%
Luminescence
24%
Lasers
24%
Photoconductivity
23%
Pumping (laser)
22%
Ring lasers
19%
Relaxation processes
18%
Fiber lasers
17%
Optical band gaps
12%
Recycling
12%
Plasmonic nanoparticles
12%
Relaxation
11%
Vapors
11%
Feedback control
11%
Spontaneous emission
10%
Metals
10%
Quantum efficiency
9%
Pumps
9%
Spectroscopy
9%
Raman scattering
9%
Feedback
8%
Energy gap
7%
Chemical analysis
6%
Sulfur
6%
Rare earths
5%
Photons
5%
Физика и астрономия
chalcogenides
51%
glass
36%
feedback control
35%
energy transfer
29%
atoms
28%
erbium
26%
vapors
23%
matrices
22%
ions
16%
cross relaxation
16%
lasers
15%
octaves
14%
rubidium
14%
recycling
14%
ring lasers
14%
radiation effects
14%
electronics
13%
oscillator strengths
13%
luminescence
12%
photoconductivity
12%
fiber lasers
11%
spectroscopy
11%
radiative lifetime
10%
pumping
10%
electrolytes
10%
dissipation
10%
tuning
9%
slopes
9%
radiation
9%
synthesis
9%
pumps
9%
interference
8%
cooling
8%
pulses
8%
metals
8%
exponents
8%
cavities
7%
coherent radiation
7%
life (durability)
7%
interactions
6%
spontaneous emission
6%
augmentation
5%
lasing
5%
critical point
5%
quantum efficiency
5%
fibers
5%
occurrences
5%
trajectories
5%
Химические соединения
Chalcogenide Glass
70%
Nonradiative Energy Transfer
32%
Glass
32%
Energy Transfer
27%
Superradiance
24%
Erbium
23%
Glass Structure
22%
IR Radiation
20%
Oscillator Strength
18%
Ion
16%
Band Gap
16%
Photoconductivity
15%
Electronic State
14%
NIR Spectroscopy
12%
Radiative Transition
12%
Resonance
10%
Lanthanoid Atom
9%
Blue
9%
Luminiscence Type
9%
Spectroscopy
8%
Modification
7%
Boson
7%
Low Frequency Raman Spectrum
6%
Tellurite
6%
Luminescence Spectroscopy
5%
Conductivity
5%