Andere Kunden interessierten sich auch für
![Exploring Diffraction Grating Experiments with LASER Light]( "Exploring Diffraction Grating Experiments with LASER Light")
Exploring Diffraction Grating Experiments with LASER Light29,99 €![Fundamentals of laser pulses interaction with matter]( "Fundamentals of laser pulses interaction with matter")
Fundamentals of laser pulses interaction with matter34,99 €![Nanocrystalline Diamonds]( "Nanocrystalline Diamonds")
Nanocrystalline Diamonds45,99 €![Perovskites With Nanoparticles For Solar Cell Applications]( "Perovskites With Nanoparticles For Solar Cell Applications")
Perovskites With Nanoparticles For Solar Cell Applications56,99 €![Model of the Universe's Creation with Minimal Initial Entropy]( "Model of the Universe's Creation with Minimal Initial Entropy")
Model of the Universe's Creation with Minimal Initial Entropy23,99 €![Restricted Three Body Problem with Dissipative Forces]( "Restricted Three Body Problem with Dissipative Forces")
Restricted Three Body Problem with Dissipative Forces37,99 €![The Point Spread Function for some modulated apertures]( "The Point Spread Function for some modulated apertures")
The Point Spread Function for some modulated apertures46,99 €
Here we provide a comprehensive overview of laser treatment for chemical vapor deposition (CVD) synthetic diamonds, followed by new data concerning another type of material-synthetic high-pressure high-temperature (HPHT) diamonds. The primary aim of this research is to investigate the graphitization processes occurring in HPHT synthetic single crystal diamonds. The study examined how impurities in samples affect its absorption properties and single/multipulse graphitization thresholds. Furthermore, an analysis of the surface composition using Raman spectroscopy revealed a diverse array of carbon structures that form in response to different levels of irradiation energy. This indicates that the interaction between the laser treatment and the material's inherent properties can lead to various structural outcomes. Through this research, we aim to enhance our understanding of the graphitization processes in HPHT synthetic diamonds and their potential applications in various fields.