Dr. Eugene O. Kamenetskii received his PhD in Physics and Mathematics from the Electrical Engineering Institute, St. Petersburg, Russia in 1986. He is presently leads the Microwave Magnetic Laboratory at the Ben Gurion University in Negev, Israel. He has authored or co-authored more than 170 peer-reviewed journal and conference papers and is a co-editor of the book "Fano Resonances in Optics and Microwaves: Physics and Application", published by Springer in 2018. Additionally, he is Fellow of the Electromagnetics Academy (USA) since 2007. His fields of scientific interest are magnetic waves and oscillations, spectral theory of artificial atomic structures, metamaterials for microwave and optics applications, microwave microscopy, and microwave biosensing.

Features coverage of emerging topics such as metamaterials, nanomagnetism and biosensing

Multifaceted interdisciplinary work with contributions from leading experts across twelve countries

Ties fundamental physics together with basic engineering problems

Chiral coupling to magnetodipolar radiation.- Surface plasmons for absolute chiral sensing.- Spin-polarized plasmonics: fresh view on magnetic nanoparticles.- Charility and Antiferromagnetism in Optical Metasurfaces.- Anomalous functions due to chiral interplay between light and nanostructures.- Spin wave nonreciprocity in ferromagnetic materials.- Microwave-Active Dynamics of Magnetic Skyrmions: Magnetic Resonances, Translational Motions, and Spin Motive Forces.- Chiral Optomagnonics with Polarized Light in Magnetic Insulators.- Realization of artificial chirality in micro-/nano-scale three-dimensional plasmonic structures.- Photo-induced nonlinear and non-equilibrium phenomena in magnets: Floquet engineering, application of topological light, and spin-current generation.- Stable propagation of surface-plasmon polaritons.