Real world applications of ultrafast technology, including ultrafast near-field, nonlinear and confocal microscopes, coherent Raman microscopes, real-time/real-space electron microscopy, medical applications, high speed communication, micromachining, 3D nanofabrication and more.
Photosynthesis, vision, heme proteins, photoactive proteins, photoisomerization in chromoproteins, wavepacket dynamics, femtobiology, structural dynamics with X-rays and electrons, medical applications.
Vibrational and conformational dynamics, energy transfer, femtochemistry, proton and electron transfer, solvation dynamics, wave packet dynamics and coherent control of reactions, structural dynamics with X-rays and electrons.
Electronics & Optoelectronics
Photoconductivity, generation, propagation and detection of ultrafast electrical signals, plasmonics, terahertz radiation, electro-optical sampling and detectors.
Highly correlated systems, coherent phonons in solids, carrier dynamics in nanoparticles, carbon-based materials, two-dimensional materials, structural dynamics with X-rays and electrons.
Ultrafast nonlinear optical processes, kinetics of non-equilibrium processes, quantum confinement, coherent transients, nonlinear pulse propagation, ultrafast nano-optics, novel ultrafast spectroscopic techniques, high intensity physics, attosecond dynamics.
Pulse Generation and Measurement
New sources, new wavelength regimes, frequency conversion techniques, amplifiers, attosecond pulse generation, free electron lasers, pulse shaping, pulse diagnostics, measurement techniques and frequency standards.