Since 2020, aggregated from related topics
Time-resolved spectroscopy is a research technique that involves studying the interactions of matter with electromagnetic radiation on very short timescales, usually on the order of picoseconds to femtoseconds. This technique allows researchers to track the dynamics of chemical and physical processes in real-time, providing valuable insights into fast reactions and transient species. Time-resolved spectroscopy is commonly used in fields such as chemistry, physics, and materials science to study a wide range of phenomena including molecular dynamics, protein folding, semiconductor physics, and photochemistry. By combining spectroscopic techniques with precise timing control, researchers can gain a deeper understanding of dynamic processes at the molecular level.