L'utilisation du rayon laser pour contrôler des réactions chimiques à grande et petite échelle est discutée. Trois applications spécifiques sont données comme exemple.The use of laser light to control large and small scale chemical reactions is discussed. Three specific applications are given as examples
With laser light of suitable wavelength and absorbed energy, spatial control and in-situ analysis of...
Processing advanced materials such as ceramics, glass or composite materials is often a challenge. L...
Laser ablation refers to the phenomenon in which a low wavelength and short pulse (ns-fs) duration o...
Starting from the various primary photochemical processes (luminescence, non-radiative transition to...
This copy is for your personal, non-commercial use only.. clicking herecolleagues, clients, or custo...
This book gives an overview of the fundamentals and applications of laser-matter interactions, in pa...
The prospects of control chemical reaction in high-intensity laser field are talked about here, and ...
Several physical processes are involved in the process of material removal by laser light. The energ...
Laser photochemistry is surveyed as a possible improvement upon the Purex process for reprocessing s...
Abstract Laser Chemical Processing (LCP) is presented as a novel microstructuring method for multipl...
Since the first successful demonstration of the laser in 1960 the laser’s potential for materials pr...
Laser micro-fabrication has formed advanced patterns of nanomaterials without employing a mask syste...
Laser Chemical Processing (LCP) is presented as a novel microstructuring method for multiple applica...
This review outlines experimental advances that have been made in laser control of physicochemical p...
Pulsed lasers proved to be advantageous tools for the stimulation of pattern formation in complex sy...
With laser light of suitable wavelength and absorbed energy, spatial control and in-situ analysis of...
Processing advanced materials such as ceramics, glass or composite materials is often a challenge. L...
Laser ablation refers to the phenomenon in which a low wavelength and short pulse (ns-fs) duration o...
Starting from the various primary photochemical processes (luminescence, non-radiative transition to...
This copy is for your personal, non-commercial use only.. clicking herecolleagues, clients, or custo...
This book gives an overview of the fundamentals and applications of laser-matter interactions, in pa...
The prospects of control chemical reaction in high-intensity laser field are talked about here, and ...
Several physical processes are involved in the process of material removal by laser light. The energ...
Laser photochemistry is surveyed as a possible improvement upon the Purex process for reprocessing s...
Abstract Laser Chemical Processing (LCP) is presented as a novel microstructuring method for multipl...
Since the first successful demonstration of the laser in 1960 the laser’s potential for materials pr...
Laser micro-fabrication has formed advanced patterns of nanomaterials without employing a mask syste...
Laser Chemical Processing (LCP) is presented as a novel microstructuring method for multiple applica...
This review outlines experimental advances that have been made in laser control of physicochemical p...
Pulsed lasers proved to be advantageous tools for the stimulation of pattern formation in complex sy...
With laser light of suitable wavelength and absorbed energy, spatial control and in-situ analysis of...
Processing advanced materials such as ceramics, glass or composite materials is often a challenge. L...
Laser ablation refers to the phenomenon in which a low wavelength and short pulse (ns-fs) duration o...
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