Biography
Katya is a fellow of Wadham College, Oxford and prior to her appointment held positions at the Universities of Osnabrueck, Erlangen-Nuremberg & Imperial College.
Most Recent Publications
Inductive Sensing of Lung Conductivity for Fluid Accumulation Detection
Inductive Sensing of Lung Conductivity for Fluid Accumulation Detection
Neural Network-Based Conductivity Imaging Using Time-Domain Reflectometry
Neural Network-Based Conductivity Imaging Using Time-Domain Reflectometry
Tuning the Resonant Properties of 3D Metamaterial Unit Cells via Anisotropic Coupling Mechanisms
Tuning the Resonant Properties of 3D Metamaterial Unit Cells via Anisotropic Coupling Mechanisms
A Reconfigurable 1D Meta-Array Induced by Mutual Coupling
A Reconfigurable 1D Meta-Array Induced by Mutual Coupling
Time-Domain Reflectometry for Imaging Conductive Environment
Time-Domain Reflectometry for Imaging Conductive Environment
Research Interests
Ekaterina's research covers metamaterials, electrodynamics, plasmonics, nanophotonics and microwave optics.
Research Groups
Most Recent Publications
Inductive Sensing of Lung Conductivity for Fluid Accumulation Detection
Inductive Sensing of Lung Conductivity for Fluid Accumulation Detection
Neural Network-Based Conductivity Imaging Using Time-Domain Reflectometry
Neural Network-Based Conductivity Imaging Using Time-Domain Reflectometry
Tuning the Resonant Properties of 3D Metamaterial Unit Cells via Anisotropic Coupling Mechanisms
Tuning the Resonant Properties of 3D Metamaterial Unit Cells via Anisotropic Coupling Mechanisms
A Reconfigurable 1D Meta-Array Induced by Mutual Coupling
A Reconfigurable 1D Meta-Array Induced by Mutual Coupling
Time-Domain Reflectometry for Imaging Conductive Environment
Time-Domain Reflectometry for Imaging Conductive Environment
