Electrodynamics, transmission lines, and electrical circuits modelling

1. D. Zorica, S. Cvetićanin, Dissipative and generative fractional RLC circuits in the transient regime, Applied Mathematics and Computation, 459 (2023) 128227–1–31.
2. J. Kovačević, S. M. Cvetićanin, D. Zorica, Electromagnetic field in a conducting medium modeled by the fractional Ohm’s law, Communications in Nonlinear Science and Numerical Simulation, 114 (2022) 106706–1–31.
3. K. Haška, D. Zorica, S. M. Cvetićanin, Frequency characteristics of dissipative and generative fractional RLC circuits, Circuits, Systems, and Signal Processing, 41 (2022) 4717–4754.
4. K. Haška, S. M. Cvetićanin, D. Zorica, Dissipative and generative fractional electric elements in modeling RC and RL circuits, Nonlinear Dynamics, 105 (2021) 3451–3474.
5. K. Haška, D. Zorica, S. M. Cvetićanin, Fractional RLC circuit in transient and steady state regimes, Communications in Nonlinear Science and Numerical Simulation, 96 (2021) 105670–1–17.
6. S. Cvetićanin, D. Zorica, M. Rapaić, Non-local telegrapher’s equation as a transmission line model, Applied Mathematics and Computation, 390 (2021) 125602–1–18.
7. S. Cvetićanin, D. Zorica, M. Rapaić, Frequency characteristics of two topologies representing fractional order transmission line model, Circuits, Systems, and Signal Processing, 39 (2020) 456–473.
8. S. M. Cvetićanin, D. Zorica, M. R. Rapaić, Generalized time-fractional telegrapher’s equation in transmission line modeling, Nonlinear Dynamics, 88 (2017) 1453–1472.