Laser ablation is defined as the precise physical process of removing material from a solid or liquid substrate through irradiation by a high-intensity, focused laser beam. This process, often leveraging **pulsed laser systems**, operates through complex photothermal and photochemical mechanisms, allowing for unparalleled control over the depth and morphology of the treated surface. Its profound significance positions it as a cornerstone technique in modern **material processing** and analysis. Key applications range from high-precision **micro-machining** of semiconductors and advanced optics to the creation of functional thin films via **Pulsed Laser Deposition (PLD)**. Furthermore, its role in **Laser-Induced Breakdown Spectroscopy (LIBS)** and specialized **biomedical applications** (e.g., precise surgical interventions and drug delivery systems) highlights its versatility. The ability to achieve nanoscale **surface modification**, especially through the use of **ultra-short pulses**, ensures continuous innovation and high market relevance in both fundamental research and highly demanding industrial sectors globally. In this section of our website, we provide a comprehensive library featuring the latest graduation theses, master’s dissertations, and doctoral theses covering ablation laser, available for download in PDF format.