Sort by
Refine Your Search
-
at least one of the group’s active research areas, which focus on the interaction of electromagnetic fields with matter, ranging from single atoms to mesoscopic solid-state objects (e.g., dielectric nano
-
technological impact in various systems, extending the study to more complex geometries such as 2D structures and highly multi-modal non-Hermitian devices. Recent studies have demonstrated that a system composed
-
structures to enhance the PV parameters such as open circuit voltage and short circuit current of thin film solar cells based on organic and/or perovskite materials. It is expected that the properties
-
interact with co-workers promptly and professionally, management and support the wide user community of students, post-doctoral researchers and faculty, promoting the growth of the EM core. Excellent oral
-
spectroscopy and molecular dynamics simulations: We develop and apply novel ultrafast spectroscopic methods aimed at uncovering how changes in light, environment and structure switch the function of photoactive
-
structures and integrated them on a chip for optical and/or electrical excitation. Those proof-of-concept devices will then be tested in show case examples to demonstrate potential for real-world applications
-
collective phenomena, photodetection, quantum technologies, and strong light-matter interactions, among others. The project has a scientific character but also explores applications (such as single photon