News

How electromagnetic, acoustic and optic waves interact with materials creates a foundation for various scientific and technological phenomena. With the invention of metamaterials over the last decades, wave matter interactions not found in nature have opened new possibilities for manipulating wave types across different frequencies.

WNCG Graduate Student, and recent winner of the WNCG Student Leadership Award,   Francesco Monticone, recently accepted a position as an Assistant Professor in the School of Electrical and Computer Engineering at Cornell University. Monticone received a BS and MS in Electronics Engineering from Politecnico di Torino in Italy, and is a member of Prof. Andrea Alù’s Metamaterials and Plasmonics Research Group. His research interests include applied electromagnetics, metamaterials, plasmonics and nanophotonics with applications ranging from microwaves to optical frequencies.

Each year, WNCG faculty nominate one outstanding student to receive the WNCG Student Leadership Award. The award is presented to a student based on their cumulative contributions to the center, including their representation of WNCG to the greater community, their mentorship of fellow students, their research visibility and recognition from external organizations.

Modern communication systems rely on multiple antennas that enhance the performance of network links using a series of techniques known as Multiple Input Multiple Output (MIMO). However, new technology is needed to meet the demands of a rapidly increasing number of wireless devices and enable the next generation of cellular systems. Known as Massive MIMO, this adaptation of traditional MIMO techniques presents challenges to research and development teams worldwide.