Book Chapters

2023

Modeling lightning strikes to tall towers

F. Rachidi; M. Rubinstein 

Lightning Electromagnetics; London, UK: IET, 2023.

Lightning interaction with the ionosphere

D. Li; A. Luque; M. Rubinstein; F. Rachidi 

Lightning Electromagnetics; London, UK: IET, 2023. p. 375 – 423.

2022

Interaction of lightning-generated electromagnetic fields with overhead and underground cables

C. A. Nucci; F. Rachidi; M. Rubinstein 

Lightning Electromagnetics. Volume 2: Electrical processes and effects (2nd Edition); London, UK: IET, 2022.

The application of the finite-difference time-domain (FDTD) technique to lightning studies

D. Li; A. Luque; F. Rachidi; M. Rubinstein 

Advanced Time Domain Modeling for Electrical Engineering; London, UK: IET, 2022. p. 335 – 370.

2020

Software tools for the lightning performance assessment

A. Borghetti; W. A. Chisholm; F. Napolitano; C. A. Nucci; F. Rachidi et al. 

Lightning Interaction with Power Systems – Volume 2: Applications; London, UK: The Institution of Engineering and Technology IET, 2020.

Field-to-transmission line coupling models

V. Cooray; C. A. Nucci; A. Piantini; F. Rachidi; M. Rubinstein 

Lightning Interaction with Power Systems – Volume 1: Fundamentals and Modelling; United Kingdom: IET, 2020.

2017

Time Reversal: A Different Perspective

M. Rubinstein; F. Rachidi; M. Paolone 

Electromagnetic Time Reversal: Application to Electromagnetic Compatibility and Power Systems; New Jersey, USA: John Wiley & Sons, 2017. p. 1 – 28.

Electromagnetic Time Reversal Applied to Fault Location in Power Networks

R. Razzaghi; G. Lugrin; M. Paolone; F. Rachidi 

Electromagnetic Time Reversal: Application to Electromagnetic Compatibility and Power Systems; New Jersey, USA: John Wiley & Sons, 2017. p. 217 – 274.

Application of Electromagnetic Time Reversal to Lightning Location

M. Rubinstein; F. Rachidi 

Electromagnetic Time Reversal: Application to Electromagnetic Compatibility and Power Systems; New Jersey, USA: John Wiley & Sons, 2017. p. 189 – 216.

2016

Telegrapher’s equations for field-to-transmission line interaction. Theory and application to the case of lightning induced voltages on distribution lines

A. Borghetti; F. Napolitano; C. A. Nucci; F. Rachidi; M. Rubinstein 

Advanced Techniques for Power System Modelling, Control and Stability Analysis; London, UK: IET, 2016. p. 3 – 44.

2014

Interaction of electromagnetic fields with electrical networks generated by lightning

C. A. Nucci; F. Rachidi 

The Lightning Flash, 2nd Edition; London: IET, 2014. p. 559 – 609.

A New Set of Electrodes for Coaxial, Quarter Wave Switched Oscillators

F. Vega; F. Rachidi; D. V. Giri; B. Daout; F. Roman et al. 

Ultra-Wideband Short-Pulse Electromagnetics 10; New York: Springer, 2014. p. 231 – 238.

2012

Propagation effects on electromagnetic fields generated by lightning return strokes: Review of simplified formulas and their validity assessment

A. Shoory; F. Rachidi; V. Cooray 

Lightning Electromagnetics; London, UK: IET, 2012. p. 485 – 513.

Interaction of lightning-generated electromagnetic fields with overhead and underground cables

C. A. Nucci; F. Rachidi; M. Rubinstein 

Lightning Electromagnetics; London, UK: IET, 2012. p. 687 – 718.

Modelling lightning strikes to tall towers

F. Rachidi; M. Rubinstein 

Lightning Electromagnetics; London, UK: IET, 2012. p. 873 – 916.

Lightning Protection of Large Wind-Turbine Blades

F. Rachidi; M. Rubinstein; A. Smorgonskiy 

Wind Energy Conversion Systems; Springer, 2012. p. 227 – 242.

2009

Lightning protection of medium voltage lines

C. Nucci; F. Rachidi 

Lightning Protection; IET, 2009.

2008

High Frequency Electromagnetic Coupling to Transmission Lines: Electrodynamics Correction to the TL Approximation

S. Tkachenko; F. Rachidi; J. Nitsch 

Electromagnetic Field Interaction with Transmission Lines. From Classical Theory to HF Radiation Effects; WIT Press, 2008. p. 123 – 158.

High Frequency Electromagnetic Field Coupling to Long Loaded Nonuniform Lines: an Asymptotic Approach

S. Tkachenko; F. Rachidi; J. Nitsch 

Electromagnetic Field Interaction with Transmission Lines. From Classical Theory to HF Radiation Effects; WIT Press, 2008. p. 159 – 186.

Derivation of Telegrapher’s Equations and Field-to-Transmission Line Interaction

C. Nucci; F. Rachidi; M. Rubinstein 

Electromagnetic Field Interaction with Transmission Lines. From Classical Theory to HF Radiation Effects; WIT Press, 2008. p. 3 – 22.