Our research explores the frontier where ultrafast optics meets precise time control. In the same way that conventional lenses shape light in space, temporal optics uses “time lenses” and engineered dispersion to manipulate light pulses in the time domain. This allows us to magnify, compress, and reshape optical signals with unprecedented resolution—revealing details of ultrafast phenomena that are invisible to standard techniques. We apply these tools to study nonlinear wave dynamics, develop quantum-enhanced measurement systems, and create new methods for ultrafast signal processing. From imaging single photons to analyzing complex pulse interactions, our work opens new possibilities for both classical and quantum technologies.