Dimitrios Tzarouchis

Publications

• Generalized Theory of Characteristic Modes for non-PEC Media
• Maximizing absorption for dielectric scatterers
• Lower Bounds to the Q Factor of Electrically Small Resonators Through Quasistatic Modal Expansion
• Light scattering characteristics of a small sphere: Resonant and directive scattering conditions
• Unveiling the scattering behavior of small spheres
• Light Scattering by a Dielectric Sphere: Perspectives on the Mie Resonances
• Shape effects on surface plasmons in spherical, cubic, and rod-shaped silver nanoparticles
• Design of a metamaterial circular patch antenna loaded with an ε-negative core
• Rigorous modelling and design of microtuned resonator filters and carbon nanointerconnects via a nonstandard LOD-FDTD technique
• Spectral properties of plasmonic nanoantennas: Comparison of quasistatic and full-wave analyses
• Full electrodynamic resonant modes on subwavelength spheroidal nano-antennas
• Plasmonic modes on rounded hexahedral and octahedral nano-antennas
• Identifying trends of an international Master's level electromagnetic course: Assessment of an in class conceptual survey and homework assignments
• Wideband monopole antenna for RF power scavenger
• Mathematical operations and equation solving with reconfigurable metadevices
• Teaching experiment in Aalto University: Progressive inquiry, reverse engineering, and company collaboration in a hands-on antenna course
• Plasmonics to dielectrics: A resonant sphere perspective
• Characteristic mode-surface integral equation analysis of plasmonic nanoparticles
• Study of Plasmonic Resonances on Platonic Solids
• Surface Integral Equation Formulation for Characteristic Modes of Lossy Dielectric Objects
• Plasmonic Eigenmodes on Regular Nano-Polyhedra: Case Study of Electrostatic and Dynamic Resonant Effects on Rounded Superquadric Solids
• Polarizability of Radially Inhomogeneous Subwavelength Spheres
• Resonances in small scatterers with impedance boundary
• Resonant Graded-Index Plasmonic Nanoscatterers: Enabling Unusual Light-Matter Interactions
• Resonances in Impedance-Boundary Spheres
• Properties of Hybridized Modes in Core-Shell Scatterers
• Mie Scattering and Characteristic Modes of Lossy Dielectric Objects
• Analytical Study of Light Scattering Characteristics of Radially Inhomogeneous Subwavelength Spheres
• Enhanced discretization of surface integral equations for resonant scattering analysis of sharp-edged plasmonic nanoparticles
• Polarizability and Light Scattering by Subwavelength Graded-Index Plasmonic Spheres
• Spurious-Free Surface Integral Equation Characteristic Mode Formulation for Dielectric Bodies
• Resonant Scattering Characteristics of Homogeneous Dielectric Sphere
• Characteristic Mode Analysis of Plasmonic Nanoantennas
• Resonances of Characteristic Modes for Perfectly Conducting Objects
• General Scattering Characteristics of Resonant Core–Shell Spheres
• Surface Integral Equation-Based Characteristic Mode Formulation for Penetrable Bodies
• Subwavelength Hexahedral Plasmonic Scatterers: History, Symmetries, and Resonant Characteristics
• Optical Tellegen metamaterial with spontaneous magnetization
• Electromagnetic metamaterials for biomedical applications: short review and trends
• A Reconfigurable Metadevice for Solving Equations and Inverting Matrices at RF Frequencies
• Computing with Metamaterials: How to solve equations using electromagnetic waves
• Diffractive optical computing in free space
• Inverse-Designed Metastructures Together with Reconfigurable Couplers to Compute Forward Scattering
• Toward Intelligent Metasurfaces: The Progress from Globally Tunable Metasurfaces to Software‐Defined Metasurfaces with an Embedded Network of Controllers
• Design and implementation of tunable RF modules for reconfigurable metastructures that perform mathematical computations
• Graded-Index Plasmonic Nanoparticles: Light Scattering Characteristics and Peculiarities
• Combined inverse-designed metastructure with tunable couplers for forward-scattering computations
• Solving differential equations with reconfigurable Mach–Zehnder interferometer photonic networks
• Reconfigurable photonic structures for solving linear differential equations
• Can a dielectric sphere emulate the behavior of a surface impedance sphereƒ
• Wearable Pad for Enhancing EM Coupling with Biological Tissues
• Wearable Pad for Enhancing EM Coupling With Biological Tissues