-
Name (Acronym)Introduction to Multi-Functional Metamaterials (IMFM)
-
ECTS3
-
Contact E-mail2025.MAII.IMFM.UniTN.TRENTO.IT@eledia.org
-
Teacher
-
Syllabus
-
Institution
-
Study Program
-
Degree
-
LanguageEnglish
-
Tracks
ABSTRACT
Metamaterials are materials exhibiting unconventional physical/mechanical properties that cannot be readily found in nature. They have a foundation in electromagnetics, but at the same time they have found wide applications in several engineering acoustics/electrodynamics/mechanics disciplines. The analysis and the synthesis of such materials, often physically realized as macro-scale aggregations of micro-scale/periodic arrangements of identical unit cells, requires sophisticated modeling and design methodologies that are currently at the edge of the research. The course aims at providing the fundamentals of multi-functional metamaterials theory and concepts, along with an overview of the most effective analysis/synthesis techniques and their most appealing/emerging applications in advanced engineering fields. Applicative examples including exercises will corroborate the theoretical concepts.COURSE CONTENT
- Fundamentals of multi-functional metamaterials
- Volumetric and surface metamaterials (i.e., metasurfaces), soft/hard surfaces, periodic and quasi-periodic surfaces
- Advanced modeling and simulation techniques for the analysis of periodic and quasi-periodic structures
- Advanced design techniques for the synthesis of innovative metamaterials in engineering fields
- Applicative examples including exercises regarding specific engineering applications of multi-functional metamaterials
TEACHING ACTIVITIES
- Theoretical Lessons
- e-Xam Self Assessment (each teaching class or periodically)
- SW/HW Emulator Exercises
- e-Xam Final Assessment
FURTHER READINGS
- F. Yang, Y. Rahmat-Samii, Surface Electromagnetics with Applications in Antenna, Microwave, and Optical Engineering, Cambridge University Press, 2019.
- G. Oliveri, F. Zardi, P. Rocca, M. Salucci and A. Massa, "Building a Smart EM Environment - AI-Enhanced Aperiodic Micro-Scale Design of Passive EM Skins," in IEEE Transactions on Antennas and Propagation, vol. 70, no. 10, pp. 8757-8770, Oct. 2022.
- G. Oliveri, P. Rocca, M. Salucci and A. Massa, "Holographic Smart EM Skins for Advanced Beam Power Shaping in Next Generation Wireless Environments,“ in IEEE Journal on Multiscale and Multiphysics Computational Techniques, vol. 6, pp. 171-182, 2021.
Course Information
| Date: | 6 March – 7 March 2025 (15 hours) |
| Format: | The course is offered on-site and on-line (synchronous and asynchronous) with video recordings, hand-outs, etc. of the lectures available off-line |
Registration Information
| UniTN Students: | Free |
| EXTERNAL Students: |
216 Eu: First course 180 Eu: Every course from the second one |
The fees include the course teaching, video recordings, hand-outs, etc. (*).
Registration Procedure for UniTN Students
Please contact the Student Support Office of your Department/Centre/School to include the course in your study plan.
Registration Procedure for EXTERNAL Students
Step 1: Register a "guest" type account (@guest.unitn.it)
- Should you still not have a UniTN account, you have to register and log in with your SPID identity or CIE (electronic ID card). If you cannot use SPID or CIE, please create your own UniTN account.
Step 2: Enroll to a Single UniTN Course
-
Complete the online application through the dedicated webpage.
In the application form (Section "Teaching Activities") put the following information:- Name of single class/teaching activity: Introduction to Multi-Functional Metamaterials
- Code of single class/teaching activity: M220_33
- Degree course to which the teaching activity is associated: [M220] Master in Multifunctional Metamaterials and Metastructures
- Once received the outcome of the application (1-3 days), login into ESSE3 with your "guest" account user-name and password. Then, pay the bulletin you find in Administrative Office – Payments.
NOTES:
- A vademecum with a step-by-step guide to enroll to a single course at the University of Trento is available here
- For any question on the registration process, please write to 2025.MAII.M3.UniTN.TRENTO.IT@unitn.it
(*) Each registered participant acknowledges that the material distributed in the frame of the course, available for the duration of one academic year, is protected by copyright and delivered for educational purposes and personal use only. The participant agrees and undertakes not to forward, publish, disclose, distribute, disseminate - in any form or manner - such a material without written consent of the author(s) of the material. Unless otherwise explicitly allowed by the speaker in written form, no recordings of the online lectures can be made.