![Frontiers | Ultra-Short-Pulse Laser Filaments for Float Glass Cutting: Influence of Laser Parameters on Micro Cracks Formation Frontiers | Ultra-Short-Pulse Laser Filaments for Float Glass Cutting: Influence of Laser Parameters on Micro Cracks Formation](https://www.frontiersin.org/files/Articles/862419/fphy-10-862419-HTML/image_m/fphy-10-862419-g001.jpg)
Frontiers | Ultra-Short-Pulse Laser Filaments for Float Glass Cutting: Influence of Laser Parameters on Micro Cracks Formation
Higher pulse frequency of near-infrared laser irradiation increases penetration depth for novel biomedical applications | PLOS ONE
![PDF) Explanation of the Effect of Magnetic Field on laser Intensity on the Basic of Generalized Special Relativity PDF) Explanation of the Effect of Magnetic Field on laser Intensity on the Basic of Generalized Special Relativity](https://i1.rgstatic.net/publication/329717494_Explanation_of_the_Effect_of_Magnetic_Field_on_laser_Intensity_on_the_Basic_of_Generalized_Special_Relativity/links/5c17ec3f299bf139c760583d/largepreview.png)
PDF) Explanation of the Effect of Magnetic Field on laser Intensity on the Basic of Generalized Special Relativity
![Frontiers | Radiobiology Experiments With Ultra-high Dose Rate Laser-Driven Protons: Methodology and State-of-the-Art Frontiers | Radiobiology Experiments With Ultra-high Dose Rate Laser-Driven Protons: Methodology and State-of-the-Art](https://www.frontiersin.org/files/Articles/624963/fphy-09-624963-HTML-r1/image_m/fphy-09-624963-g001.jpg)
Frontiers | Radiobiology Experiments With Ultra-high Dose Rate Laser-Driven Protons: Methodology and State-of-the-Art
![Materials | Special Issue : Laser and Plasma Technologies in Materials Science: Physics and Applications Materials | Special Issue : Laser and Plasma Technologies in Materials Science: Physics and Applications](https://www.mdpi.com/files/special_issues_graphic_abstract/147325/banner-GA.png)
Materials | Special Issue : Laser and Plasma Technologies in Materials Science: Physics and Applications
![Strong mode coupling-enabled hybrid photon-plasmon laser with a microfiber-coupled nanorod | Science Advances Strong mode coupling-enabled hybrid photon-plasmon laser with a microfiber-coupled nanorod | Science Advances](https://www.science.org/cms/10.1126/sciadv.abn2026/asset/3c4666ee-6726-480a-a889-002829d39763/assets/images/large/sciadv.abn2026-f1.jpg)