Recent years have seen the rapid growth and development of the field of smart photonics,
where machine-learning algorithms are being matched to optical systems to add new …

During femtosecond laser fabrication, photons are mainly absorbed by electrons, and the
subsequent energy transfer from electrons to ions is of picosecond order. Hence, lattice …

Reaction-rate modifications for chemical processes due to strong coupling between reactant
molecular vibrations and the cavity vacuum have been reported; however, no currently …

Efficient utilization of sunlight in photocatalysis is widely recognized as a promising solution
for addressing the growing energy demand and environmental issues resulting from fossil …

Recent advances in deep learning have been providing non-intuitive solutions to various
inverse problems in optics. At the intersection of machine learning and optics, diffractive …

Advances in control techniques for vibrational quantum states in molecules present new
challenges for modelling such systems, which could be amenable to quantum simulation …

Intense ultrashort light pulses comprising merely a few wave cycles became routinely
available by the turn of the millennium. The technologies underlying their production and …

This paper presents a tutorial on the field of femtosecond pulse shaping, a technology that
enables generation of nearly arbitrary, user defined, ultrafast optical waveforms, with control …

A review of nanoplasmonics is given. This includes fundamentals, nanolocalization of
optical energy and hot spots, ultrafast nanoplasmonics and control of the spatiotemporal …

Quantum control is concerned with active manipulation of physical and chemical processes
on the atomic and molecular scale. This work presents a perspective of progress in the field …