Ultrafast laser-based material processing represents a dynamic research field characterized by rapid advances over the past decade. Utilizing femtosecond and picosecond pulses, these lasers enable precision material modifications not achievable with traditional laser technologies like CO2 lasers. Recent developments have particularly focused on enhancing the resolution and versatility of laser processing, marking significant strides across photonics, flexible electronics, and mechanical technologies. Despite these advancements, challenges persist in fully exploiting these technologies in industrial applications, necessitating ongoing research and development.
This Research Topic aims to consolidate current knowledge and foster new advancements in ultrafast laser applications within advanced manufacturing. By addressing both recent progress and emerging needs, it will bridge the gap between research and practical implementation while examining the technological, operational, and economic challenges involved.
Will will accept all article types. To effectively map out the terrain of ultrafast laser technology in advanced manufacturing, we will consider articles that insightfully discuss both theoretical advancements and practical applications. We particularly invite contributions that address the following areas:
• Ultrafast laser interaction with manufacturing materials
• Additive manufacturing using ultrafast laser systems
• Material ablation processes optimized by ultrafast lasers
• Innovations in ink synthesis through ultrafast laser applications
• Photonic material processing using ultrafast lasers
• Development of sensors for harsh environmental conditions using ultrafast lasers
• Electronics and circuit generation through high-resolution laser writing
• Advanced interactions of ultrafast lasers with semiconductor devices
• Biomedical applications of ultrafast lasers
• Three-dimensional micro and nanofabrication techniques
• Further development of industrial lasers for material processing
Topic Editor Sandra Bruce is a founder and an owner of the company Surge Photonics LLC. Dr. Bruce is also a part time employee of, an independent consultant for, National Energetics, Inc. All other Topic Editors declare no competing interests with regards to the Research Topic subject.
Ultrafast laser-based material processing represents a dynamic research field characterized by rapid advances over the past decade. Utilizing femtosecond and picosecond pulses, these lasers enable precision material modifications not achievable with traditional laser technologies like CO2 lasers. Recent developments have particularly focused on enhancing the resolution and versatility of laser processing, marking significant strides across photonics, flexible electronics, and mechanical technologies. Despite these advancements, challenges persist in fully exploiting these technologies in industrial applications, necessitating ongoing research and development.
This Research Topic aims to consolidate current knowledge and foster new advancements in ultrafast laser applications within advanced manufacturing. By addressing both recent progress and emerging needs, it will bridge the gap between research and practical implementation while examining the technological, operational, and economic challenges involved.
Will will accept all article types. To effectively map out the terrain of ultrafast laser technology in advanced manufacturing, we will consider articles that insightfully discuss both theoretical advancements and practical applications. We particularly invite contributions that address the following areas:
• Ultrafast laser interaction with manufacturing materials
• Additive manufacturing using ultrafast laser systems
• Material ablation processes optimized by ultrafast lasers
• Innovations in ink synthesis through ultrafast laser applications
• Photonic material processing using ultrafast lasers
• Development of sensors for harsh environmental conditions using ultrafast lasers
• Electronics and circuit generation through high-resolution laser writing
• Advanced interactions of ultrafast lasers with semiconductor devices
• Biomedical applications of ultrafast lasers
• Three-dimensional micro and nanofabrication techniques
• Further development of industrial lasers for material processing
Topic Editor Sandra Bruce is a founder and an owner of the company Surge Photonics LLC. Dr. Bruce is also a part time employee of, an independent consultant for, National Energetics, Inc. All other Topic Editors declare no competing interests with regards to the Research Topic subject.
