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Photochemical and photothermal model for pulsed-laser ablation
M. Sadoqi,
S. Kumar
, Y. Yamada
Mechanical and Aerospace Engineering
Mechanical Engineering
Research output
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Contribution to journal
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Article
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peer-review
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Keyphrases
Ablation Depth
50%
Absorption Model
50%
Dissociative State
50%
Distinctive Features
50%
Energy Absorption
50%
Etching Depth
50%
Inferred Value
50%
Laser Fluence
50%
Laser Pulse
100%
Laser Wavelength
50%
Organic Polymer
50%
Photo-thermal Model
100%
Photochemical Modeling
100%
Photochemical Process
50%
Photothermal
50%
Pulse Width
50%
Pulsed Laser Ablation
100%
Radiative Energy
50%
Radiative Transport
50%
Rate Equations
50%
Threshold Fluence
50%
Two-photon Absorption
50%
UV Laser
100%
Engineering
Do Model
100%
Energy Absorption
100%
Etch Depth
100%
Laser Fluence
100%
Laser Wavelength
100%
Pulse Duration
100%
Pulsed Laser Ablation
100%
Rate Equation
100%
Physics
Energy Absorption
33%
Laser Ablation
100%
Laser Pulse
66%
Mathematical Model
33%
Photon Absorption
33%
Pulsed Laser
100%
Ultraviolet Laser
66%