Miami graduate and undergraduate students are training with the various models of lasers in Bayram’s lab. Students learn the techniques of fast and ultrafast time-resolved laser spectroscopy – the ...

When an electron travels through a polar crystalline solid, its negative charge attracts the positively charged atomic cores, causing the surrounding crystal lattice to deform. The electron and ...

The rapid development of two-dimensional quantum materials, such as twisted bilayer graphene, monolayer copper superconductors, and quantum spin Hall materials, has demonstrated both important ...

Light-matter interactions and quantum optics on nanoscale platforms (i.e. nanostructures) Coherent and nonlinear processes in metal or semiconductor nanocavities Time-resolved laser spectroscopy and ...

Time-resolved fluorescence spectroscopy can detect events within a fluorophore’s environment. The events that can be measured are decay, indicated by a decrease in fluorescence after excitation, and ...

Many conventional spectrometric techniques have been effectively used in the detection of solids, liquids, and gases. However, newer laser spectroscopy techniques have emerged as the tools of choice ...