FABRIZIO FREZZA
Structure:
Dipartimento di INGEGNERIA DELL'INFORMAZIONE, ELETTRONICA E TELECOMUNICAZIONI
SSD:
IINF-02/A
Research profile

News

Students enrolled on the Courses, or interested in, are invited to contact the Teacher at: fabrizio.frezza@uniroma1.it, as well as to register on relevant Moodle E-learning and Google Classroom platforms (see details below).

 

Skype contact name: fabriziofrezza

 

Teacher's Zoom personal meeting room:

bit.ly/FabrizioFrezzaRoom

Meeting ID: 647 771 0632

Passcode: 9T9WQE

 

Course taught in the second semester, academic year 2024-25:

 

Advanced Electromagnetics and Scattering (AE&S): started February 27th, 2025; will end May 31st, 2025

 

On Thursdays (room 37, from 17:00 to 19:00) and Fridays (room 20, from 14:00 to 17:00), via Eudossiana 18, Rome

 

Moodle e-learning platform (Course materials): 

https://elearning.uniroma1.it/course/view.php?id=2210

 

Google Classroom platform (Course communications):

Google Classroom platform:

Course code: z5e4lsy

 

YouTube channel (short lessons) bit.ly/videofrezza:

bit.ly/videofrezzaadvanced

bit.ly/videofrezzaEM

bit.ly/videofrezzaleaky

bit.ly/videofrezzamathematics

bit.ly/videofrezzahistory

 

Portal EMpossible:

 

course 21st Century Electromagnetics:

https://empossible.net/academics/21cem/

 

https://empossible.net/resources/em-resources/

https://empossible.net/software-resources/

 

Propaedeutics: Knowledge of mathematical analysis, general physics, circuit theory, signal theory, basic electromagnetics (see, e.g. F. Frezza, A Primer on Electromagnetic Fields, Springer, 2015).

Main Textbook: F. Frezza and P. Simeoni: Planar Guiding Structures, 2025.

Additional References: C.A. Balanis, Advanced Engineering Electromagnetics, 3rd Ed., Wiley, 2024; K. Barkeshli, Advanced Electromagnetics and Scattering Theory, Springer, 2015; L. Tsang, J.A. Kong, K.-H. Ding, Scattering of Electromagnetic Waves: Theories and Applications, Wiley, 2000.

Textbook in Italian: F. Frezza, Lezioni di Campi Elettromagnetici II, Rome, July 2013.

 

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Courses taught in the first semester, academic year 2024-25:

 

 

Elementi di Comunicazione Tecnico-Scientifica (ECTS)

Parte lunedì 18 novembre in aula 20

Luogo: Aula 4, Sede di San Pietro in Vincoli, via Eudossiana 18

Orario: lunedì dalle 12:00 alle 14:00

 

Codice OPIS: A78FX3H4

 

piattaforma e-learning Moodle: https://elearning.uniroma1.it/course/view.php?id=17472

 

piattaforma Google Classroom:

codice del Corso: a3xc4ui

 

canale YouTube (brevi lezioni) bit.ly/videofrezza:

bit.ly/videofrezzacartoons

bit.ly/videofrezzahistory

 

portale EMpossible: course Research Methods: Professional Communication:

https://empossible.net/academics/research-methods/

 

https://empossible.net/category/advice-from-the-emprofessor/

 

Testi:

F.S. Marzano, A. d’Alessandro, F. Frezza, Materiali del Corso distribuiti dal docente (Moodle&Classroom)

E. Matricciani, La scrittura tecnico-scientifica, Maggioli Editore, 2023

F. Frezza, Lezioni di Campi elettromagnetici II, Parte IV: Bibliografia

C. Beccari, F. Canavero, U. Rossetti e P. Valabrega, Saper comunicare: cenni di scrittura tecnico-scientifica, Politecnico di Torino, 2020.

George M. Whitesides, “Whitesides' Group: Writing a Paper”, Adv. Mater. 2004, 16, pp. 1375-1377 (https://www.youtube.com/watch?v=q3mrRH2aS98).

J. Schimel, “Writing Science: How to Write Papers That Get Cited and Proposals That Get Funded”, Oxford University Press, 2012.

 

Artificial Materials, Metamaterials and Plasmonics for Electromagnetic Applications

On Tuesdays and Thursdays, Place and time: via Eudossiana 18, 00184 Roma, building RM031: room 17, from 16:00 to 19:00 (on Tuesdays); room 4 from 10:00 to 12:00 (on Thursdays)

 

OPIS Code: G6L0Q7SC (Nanotechnology Engineering); Z5RWJIHE (Electronics Engineering)

 

Moodle e-learning platform (Course materials): 

https://elearning.uniroma1.it/course/view.php?id=4275

 

Google Classroom platform (Course communications):

Course code: eztdd4s

 

YouTube channel (short lessons) bit.ly/videofrezza:

bit.ly/videofrezzamaterials

bit.ly/videofrezzaEM

 

Portal EMpossible, course 21st Century Electromagnetics:

https://empossible.net/academics/21cem/

Short videos:

https://www.youtube.com/playlist?list=PLLYQF5WvJdJUEigxTWuxP-jXiFogqWSSZ

 

Textbooks

L. Solymar, E. Shamonina, Waves in Metamaterials, Oxford University Press, 2009.

I. Staude, T. Pertsch, Introduction to Nanooptics.
W. Cai, V. Shalaev, Optical Metamaterials: Fundamentals and Applications, Springer, 2010.
Slides, tutorials, papers available on the Course Moodle area.
Propaedeutic material: F. Frezza, A Primer on Electromagnetic Fields, Springer, 2015.

 

Reference Texts

Metamaterials Handbook, F. Capolino Editor, CRC Press, 2 vols., 2009.
L. Novotny, B. Hecht, Principles of Nano-Optics, 2nd Edition, Cambridge University Press, 2012.
L. Solymar, D. Walsh, R.R.A. Syms, Electrical properties of materials, 10th Edition, Oxford University Press, 2019.
J.D. Joannopoulos, S.G. Johnson, J.N. Winn, R.D. Meade, Photonic Crystals: Molding the Flow of Light, 2nd Edition, Princeton University Press, 2008.

European Commission Studies and Reports, "Nanostructured metamaterials", Exchange between experts in electromagnetics and material science, Editors: S. Tretyakov, P. Barois, T. Scharf, V. Kruglyak, and I. Bergmair

(free download at: https://op.europa.eu/it/publication-detail/-/publication/89acfa5b-d6f3-4...).

C. Simovski, S. Tretyakov, An Introduction to Metamaterials and Nanophotonics, Cambridge University Press, 2020.

C.A. Balanis, Advanced Engineering Electromagnetics, 3rd edn. (Wiley, New York, 2024).

 

 

Campi elettromagnetici, Fondamenti di campi elettromagnetici (sede di Latina)

Luogo: aula 9, edificio LT005, Viale Andrea Doria, Latina.

Orario: dalle 9 alle 18 venerdì (con il Prof. Fabio Mangini)

 

Codice OPIS: TQF02T90

 

piattaforma e-learning Moodle: 

https://elearning.uniroma1.it/course/view.php?id=7156

 

piattaforma Google Classroom:

codice del Corso: 7puhnua

 

canale YouTube (brevi lezioni) bit.ly/videofrezza:

bit.ly/videofrezzaEM

bit.ly/videofrezzacartoons

bit.ly/videofrezzahistory

 

portale EMpossible, corso Electromagnetic Field Theory:

https://empossible.net/academics/emp3302/

portal EMpossible, course Microwave Engineering:

https://empossible.net/academics/emp4301_5302/

Short videos:

https://www.youtube.com/playlist?list=PLLYQF5WvJdJUEigxTWuxP-jXiFogqWSSZ

 

Testi:

F. Frezza, Lezioni di Campi elettromagnetici I.

F. Frezza, Complementi di Campi elettromagnetici.

F. Frezza, Lezioni di Campi elettromagnetici II. 

P. Burghignoli, Esercizi svolti di Campi elettromagnetici.

Materiale delle lezioni e delle esercitazioni distribuito dai docenti.

F. Frezza, Compendio di Campi elettromagnetici, Aracne, 2013.

F. Frezza, A Primer on Electromagnetic Fields, Springer, 2015.

P. Bassi e C. Zaniboni, Introduzione ai Campi elettromagnetici (nuova edizione), Bononia University Press, 2020.

F. Ulaby, U. Ravaioli, Fondamenti di campi elettromagnetici, ottava edizione, Pearson, 2021.

C.A. Balanis, Advanced Engineering Electromagnetics, 3rd edn. (Wiley, New York, 2024).

G. Gerosa, P. Lampariello, Lezioni di Campi elettromagnetici (seconda edizione), Edizioni Ingegneria 2000, Roma, 2006.

 

 

Microwaves, Part II

place and time: Faculty of Engineering, via Eudossiana 18, building RM031; Mondays and Tuesdays (room 23): time 10 to 12; Wednesdays (room 23) and Thursdays (room 48): time 14 to 16

 

OPIS Code: PKQT1PEG

 

Moodle e-learning platform: 

https://elearning.uniroma1.it/course/view.php?id=7049

 

Google Classroom platform:

Course code: j47faqk

 

YouTube channel (short lessons) bit.ly/videofrezza:

bit.ly/videofrezza

bit.ly/videofrezzaadvanced

bit.ly/videofrezzaEM

bit.ly/videofrezzahistory

 

portal EMpossible, course Microwave Engineering:

https://empossible.net/academics/emp4301_5302/

https://www.youtube.com/playlist?list=PLLYQF5WvJdJVsGsjkVBz6Odf9aJxbd2Hv

 

Propaedeutics: Knowledge of mathematical analysis, general physics, circuit theory, signal theory, basic electromagnetics (see, e.g. F. Frezza, A Primer on Electromagnetic Fields, Springer, 2015).

Main Textbook: F. Frezza and P. Simeoni: Planar Guiding Structures, 2025.

Additional Reference: C.A. Balanis, Balanis' Advanced Engineering Electromagnetics, 3rd Ed., Wiley, 2024.

Textbook in Italian: F. Frezza, Lezioni di Campi Elettromagnetici II, Rome, July 2013.

 

 

 

 

 

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Course taught for the last time in academic year 2018-19

 

Nanostructured Materials and Components for Electromagnetic Applications (NMCE)

Moodle e-learning platform: 

https://elearning.uniroma1.it/course/view.php?id=4274

 

Google Classroom platform:

Course code: mufxmkc

 

YouTube channel bit.ly/videofrezza:

bit.ly/videofrezzamaterials

bit.ly/videofrezzaEM