Keyphrases
Epilayer
100%
TiAlN
100%
Ti1-xAlxN
100%
Transient Optical Properties
100%
Electron-phonon Coupling
66%
Near-infrared
33%
Ultrafast
33%
Visible-infrared
33%
Spectral Region
33%
Epsilon-near-zero
33%
Al Concentration
33%
Hot Carriers
16%
Dielectric
16%
Visible Spectrum
16%
Photovoltaic Cells
16%
Optical Properties
16%
Pump-probe Experiment
16%
Ultrafast Pump-probe
16%
High Thermal Stability
16%
Dielectric Properties
16%
Carrier Dynamics
16%
Epitaxial Film
16%
Optical Absorption
16%
Plasmonic Properties
16%
Highly Crystalline
16%
Heat Dissipation
16%
Absorbing Layer
16%
Engineering Application
16%
Optoelectronic Applications
16%
High Power Conversion Efficiency
16%
Picosecond
16%
Transient Reflectivity
16%
Wavelength Dependence
16%
Mechanical Stability
16%
Photovoltaic Applications
16%
Titanium Nitride
16%
Sub-picosecond
16%
Carrier Design
16%
Broad Spectral Range
16%
Coupling Process
16%
Controversial Issues
16%
Dynamic Study
16%
Femtosecond Excitation
16%
Dissipation Process
16%
Photothermal Materials
16%
Photothermal Applications
16%
Transient Optical Response
16%
Refractory Materials
16%
Aluminum Element
16%
Material Science
Epilayers
100%
Optical Property
100%
Titanium
100%
Aluminum Nitride
100%
Film
50%
Hot Carrier
50%
Photovoltaics
50%
Solar Cell
50%
Nitride Compound
50%
Aluminum
50%
Dielectric Property
50%
Alloying
50%
Mechanical Stability
50%
Dielectric Material
50%
Epitaxial Film
50%
Refractory Material
50%
Engineering
Transients
100%
Nitride
100%
Dielectrics
50%
Nanosecond
50%
Spectral Region
50%
Picosecond
50%
Infrared Region
50%
Conversion Efficiency
25%
Photovoltaics
25%
Solar Cell
25%
Plasmonics
25%
Heat Losses
25%
Engineering Application
25%
Optoelectronics
25%
Spectral Range
25%
Mechanical Stability
25%
Alloying
25%
Epitaxial Film
25%
Reflectance
25%
Absorptivity
25%