Konstantinos Prokopidis
Title
Cited by
Cited by
Year
An FDTD algorithm for wave propagation in dispersive media using higher-order schemes
KP Prokopidis, EP Kosmidou, TD Tsiboukis
Journal of electromagnetic waves and applications 18 (9), 1171-1194, 2004
452004
A unified FDTD/PML scheme based on critical points for accurate studies of plasmonic structures
KP Prokopidis, DC Zografopoulos
Journal of lightwave technology 31 (15), 2467-2476, 2013
422013
Higher-order FDTD (2, 4) scheme for accurate simulations in lossy dielectrics
KP Prokopidis, TD Tsiboukis
Electronics Letters 39 (11), 835-836, 2003
222003
Modeling of ground-penetrating radar for detecting buried objects in dispersive soils
KP Prokopidis, TD Tsiboukis
Applied Computational Electromagnetics Society Journal 22 (2), 287, 2007
202007
Numerical modeling of an indoor wireless environment for the performance evaluation of WLAN systems
TT Zygiridis, EP Kosmidou, KP Prokopidis, NV Kantartzis, ...
IEEE Transactions on Magnetics 42 (4), 839-842, 2006
202006
Investigation of the Stability of ADE-FDTD Methods for Modified Lorentz Media
KP Prokopidis, DC Zografopoulos
IEEE Microwave and Wireless Component Letters 24 (10), 659-661, 2014
172014
On the development of efficient FDTD‐PML formulations for general dispersive media
KP Prokopidis
International Journal of Numerical Modelling: Electronic Networks, Devices …, 2008
142008
Efficient FDTD algorithms for dispersive Drude-critical points media based on bilinear z-transform
KP Prokopidis, DC Zografopoulos
Electronics letters 49 (8), 534-536, 2013
132013
Rigorous broadband investigation of liquid-crystal plasmonic structures using finite-difference time-domain dispersive-anisotropic models
KP Prokopidis, DC Zografopoulos, EE Kriezis
JOSA B 30 (10), 2722-2730, 2013
122013
Time-domain modeling of dispersive and lossy liquid-crystals for terahertz applications
DC Zografopoulos, KP Prokopidis, R Dąbrowski, R Beccherelli
Optical Materials Express 4 (3), 449-457, 2014
82014
An ADI-FDTD Formulation With Modified Lorentz Dispersion for the Study of Plasmonic Structures
D Zografopoulos, K Prokopidis
IEEE Photon. Techn. Lett 26 (22), 2267-2270, 2014
7*2014
FDTD algorithm for microstrip antennas with lossy substrates using higher order schemes
K Prokopidis, T Tsiboukis
Electromagnetics 24 (5), 301-315, 2004
72004
Time-domain numerical scheme based on low-order partial-fraction models for the broadband study of frequency-dispersive liquid crystals
KP Prokopidis, DC Zografopoulos
JOSA B 33 (4), 622-629, 2016
52016
Transparent nanoprobes in integrated plasmonic circuits based on plasmonic cloaking
DC Zografopoulos, KP Prokopidis
Physical Review Applied 2 (6), 064009, 2014
52014
The effect of substrate dispersion on the operation of square microstrip antennas
KP Prokopidis, TD Tsiboukis
IEEE transactions on magnetics 42 (4), 603-606, 2006
52006
Performance optimization of the PML absorber in lossy media via closed-form expressions of the reflection coefficient
KP Prokopidis, NV Kantartzis, TD Tsiboukis
IEEE transactions on magnetics 39 (3), 1234-1237, 2003
52003
Higher-order spatial FDTD schemes for EM propagation in dispersive media
KP Prokopidis, TD Tsiboukis
Electromagnetic fields in mechatronics, electrical and electronic …, 2006
42006
Numerical and Experimental Time-Domain Characterization of Terahertz Conducting Polymers
DC Zografopoulos, KP Prokopidis, A Ferraro, L Peters, M Peccianti, ...
IEEE Photonics Technology Letters 30 (17), 1579-1582, 2018
32018
Modeling plasmonic structures using LOD-FDTD methods with accurate dispersion models of metals at optical wavelengths
KP Prokopidis, DC Zografopoulos
Journal of Lightwave Technology 35 (2), 193-200, 2017
32017
An ADE-FDTD formulation for the study of liquid-crystal components in the Terahertz spectrum
DC Zografopoulos, KP Prokopidis, S Tofani, O Chojnowska, R Dąbrowski, ...
Molecular Crystals and Liquid Crystals 619 (1), 49-60, 2015
32015
The system can't perform the operation now. Try again later.
Articles 1–20