Research Works
Exploring exciton physics in semiconductor nanostructures through advanced spectroscopic techniques
Ultrafast and Two-Dimensional Coherent Spectroscopy
Investigating excitonic dynamics in nanomaterials using advanced two-dimensional coherent spectroscopy to understand quantum coherence and energy transfer.
Spatially Structured Ultrafast Pulses
Probing material properties using advanced pulse shaping techniques with structured light to understand light-matter interactions at femtosecond timescales.
Ultrafast Laser Pulse Shaping
Development and characterization of ultrafast laser pulse shaping techniques for advanced spectroscopic applications and precision control.
Physics-Informed Neural Networks
Modeling ultrafast spectroscopy and adaptive pulse shaping using machine learning approaches integrated with physical principles.