Real-time imaging of laser materials processing can be challenging as the laser generated plasma can prevent direct observation of the sample. However, the spatial structure of the generated plasma is strongly dependent on the surface profile of the sample, and therefore can be interrogated to indirectly provide an image of the sample. In this study, we demonstrate that deep learning can be used to predict the appearance of the surface of silicon before and after the laser pulse, in real-time, when being machined by single femtosecond pulses, directly from camera images of the generated plasma. This demonstration has immediate impact for real-time feedback and monitoring of laser materials processing where direct observation of the sample i...
Laser-induced periodic surface structures have been extensively explored as an enabling tool for fab...
Interactions between light and matter during short-pulse laser materials processing are highly nonli...
Predictive visualisation for laser-processing of materials can be challenging, as the nonlinear inte...
Whilst advances in lasers now allow the processing of practically any material, further optimisation...
Laser cutting is a materials processing technique used throughout academia and industry. However, de...
Fibre laser materials processing is a non-contact manufacturing technique used widely across academi...
This dataset supports the publication: James A. Grant-Jacob, Ben Mills, and Michalis N. Zervas, &qu...
Femtosecond laser ablation can enable extremely high precision materials processing, as multiphoton ...
Advances in lasers now allow the laser-based processing of almost any material, and consequently inn...
Laser machining can depend on the combination of many complex and nonlinear physical processes. Simu...
Femtosecond laser machining offers the potential for high-precision materials processing. However, d...
Femtosecond laser machining is a complex process, owing to the high peak intensities involved. Model...
Femtosecond laser machining is a highly precise fabrication method. However, it is extremely nonline...
The interaction between light and matter during laser machining is particularly challenging to model...
Materials processing using femtosecond laser pulses offers the potential for high-precision manufact...
Laser-induced periodic surface structures have been extensively explored as an enabling tool for fab...
Interactions between light and matter during short-pulse laser materials processing are highly nonli...
Predictive visualisation for laser-processing of materials can be challenging, as the nonlinear inte...
Whilst advances in lasers now allow the processing of practically any material, further optimisation...
Laser cutting is a materials processing technique used throughout academia and industry. However, de...
Fibre laser materials processing is a non-contact manufacturing technique used widely across academi...
This dataset supports the publication: James A. Grant-Jacob, Ben Mills, and Michalis N. Zervas, &qu...
Femtosecond laser ablation can enable extremely high precision materials processing, as multiphoton ...
Advances in lasers now allow the laser-based processing of almost any material, and consequently inn...
Laser machining can depend on the combination of many complex and nonlinear physical processes. Simu...
Femtosecond laser machining offers the potential for high-precision materials processing. However, d...
Femtosecond laser machining is a complex process, owing to the high peak intensities involved. Model...
Femtosecond laser machining is a highly precise fabrication method. However, it is extremely nonline...
The interaction between light and matter during laser machining is particularly challenging to model...
Materials processing using femtosecond laser pulses offers the potential for high-precision manufact...
Laser-induced periodic surface structures have been extensively explored as an enabling tool for fab...
Interactions between light and matter during short-pulse laser materials processing are highly nonli...
Predictive visualisation for laser-processing of materials can be challenging, as the nonlinear inte...