Add to ORKGPulsed laser materials processing incorporates many physical processes, the modeling of which requires disparate techniques. We focus on two closely related topics that arise in laser processing. First, we illustrate by use of numerical simulation the distinction between metals and ceramics in their response to laser fluence. Second we explain recent experiments that indicate that the substrate heater is a strong control parameter in laser processing, and this can be understood from the point of view of shock dynamics. © 2007 Institute for Scientific Computing and Information
This book describes the basic mechanisms, theory, simulations and technological aspects of Laser pro...
A deep understanding of the laser-material interaction mechanism, characterized by laser absorption,...
AbstractThis paper gives an overview on a new but still quite universal numerical simulation model f...
Pulsed laser materials processing incorporates many physical processes, the modeling of which requir...
A numerical study of the short-pulsed laser-induced evaporation process is presented. For short-puls...
A complete model of nanosecond pulsed laser scribing of arbitrary thin multilayer structures is pres...
The revised edition of this important reference volume presents an expanded overview of the analytic...
none1noA complete model of nanosecond pulsed laser scribing of arbitrary thin multilayer structures ...
The purpose of the book is to show how general principles can be used to obtain insight into laser p...
AbstractThis paper gives an overview on the potentials of numerical simulations for understanding dy...
The material transfer from the target to the substrate involved in pulsed laser deposition is descri...
- Laser Shock Processing (LSP) is developed as a technique allowing the effective induction of resid...
Short and ultrashort-pulsed lasers (with the duration of ~10 nanosecond or even less) have been deve...
The following chapter aims at giving an overview of the use of numerical simulation in the field of ...
The high energy lasers are emerging as an innovative material processing tool to effectively fabrica...
This book describes the basic mechanisms, theory, simulations and technological aspects of Laser pro...
A deep understanding of the laser-material interaction mechanism, characterized by laser absorption,...
AbstractThis paper gives an overview on a new but still quite universal numerical simulation model f...
Pulsed laser materials processing incorporates many physical processes, the modeling of which requir...
A numerical study of the short-pulsed laser-induced evaporation process is presented. For short-puls...
A complete model of nanosecond pulsed laser scribing of arbitrary thin multilayer structures is pres...
The revised edition of this important reference volume presents an expanded overview of the analytic...
none1noA complete model of nanosecond pulsed laser scribing of arbitrary thin multilayer structures ...
The purpose of the book is to show how general principles can be used to obtain insight into laser p...
AbstractThis paper gives an overview on the potentials of numerical simulations for understanding dy...
The material transfer from the target to the substrate involved in pulsed laser deposition is descri...
- Laser Shock Processing (LSP) is developed as a technique allowing the effective induction of resid...
Short and ultrashort-pulsed lasers (with the duration of ~10 nanosecond or even less) have been deve...
The following chapter aims at giving an overview of the use of numerical simulation in the field of ...
The high energy lasers are emerging as an innovative material processing tool to effectively fabrica...
This book describes the basic mechanisms, theory, simulations and technological aspects of Laser pro...
A deep understanding of the laser-material interaction mechanism, characterized by laser absorption,...
AbstractThis paper gives an overview on a new but still quite universal numerical simulation model f...