Coherent control aims to steer quantum systems towards desired final states through its interaction with light. Recent years have witnessed rapid acceleration of research activity in the field. Along with new theoretical control strategies, latest advances in nonlinear optics and ultrafast laser technology have enabled spatial and temporal coherence of light to be extended through to the UV and X-ray regions. The possibility of engineering and tailoring coherent waveforms is paving the way to novel discoveries in a number of scientific disciplines at the interface between physics, chemistry and biology. Promising applications include the development and control of quantum materials and metamaterials, control of chiral matter, and high-precision spectroscopy on ultrafast time scales.
Topics: Theoretical and Experimental Techniques for Coherent Quantum Control With Strong Fields