Keyphrases
Energy Density
100%
Pulsed Laser Deposition
100%
Absorption Coefficient
100%
Thermal Conductivity
100%
Superconducting Thin Films
100%
Femtosecond Laser Irradiation
100%
Laser-target Interaction
100%
Numerical Methods
50%
Superconductor
50%
Unique Effects
50%
YBa2Cu3O7
50%
Fast Convergence
50%
Laser Beams
50%
Exact Solutions
50%
Pulse Duration
50%
Phase Change
50%
Thermal Effect
50%
Planar Surfaces
50%
Latent Heat
50%
Temporal Variation
50%
Surface Temperature
50%
Thermal History
50%
Laser Intensity
50%
Gaseous Phase
50%
Absorption Depth
50%
Subsurface Temperature
50%
Stability Criteria
50%
Truncation Error
50%
Micro-explosion
50%
Surface Evaporation
50%
High-order Finite Difference Schemes
50%
Pulsed Power
50%
Temperature-dependent Thermal Properties
50%
Temperature-dependent Optical Properties
50%
Irradiated Materials
50%
Latent Heat of Vaporization
50%
Heat Flow Problems
50%
Evaporation Characteristics
50%
Targeted Ablation
50%
Transient Thermal Characteristics
50%
Physics
Thin Films
100%
Flux Density
100%
Thermal Conductivity
100%
Latent Heat
100%
Pulsed Laser Deposition
100%
Laser Target Interactions
100%
Optical Properties
50%
Transients
50%
Phase Change
50%
Nucleation
50%
Thermodynamic Properties
50%
Laser Beams
50%
Anisotropy
50%
Mathematical Method
50%
Vaporizing
50%
Flow Equation
50%
Engineering
Pulsed Laser
100%
Subsurface
100%
Thin Films
100%
Absorption Coefficient
50%
Nanosecond
50%
Laser Irradiation
50%
Energy Density
50%
Thermal Conductivity
50%
Latent Heat
50%
One Dimensional
25%
Transients
25%
Superconductor
25%
Laser Beam
25%
Pulse Duration
25%
Thermal Effect
25%
Vaporization
25%
Pulse Energy
25%
Laser Intensity
25%
Irradiated Material
25%
Thermal History
25%
Planar Surface
25%
Thermal Characteristic
25%
Target Material
25%
Numerical Methods
25%
Flow Equation
25%
Temporal Variation
25%
Truncation Error
25%
Gaseous Phase
25%