课程题目:From Resonant Scatterers to PDE Control
授课 人: Mourad Sini
所在单位:Austrian Academy of Sciences
授课时间:2026年05月11-18日
授课地点:Zoom 会议(会议链接请联系 [email protected] 获取)
课程介绍:
This lecture series explores a control-theoretic use of small resonant scatterers in partial differential equations. The main idea is that suitably chosen micro-resonant inhomogeneities, such as bubbles or plasmonic nanoparticles, can be interpreted and designed as effective actuators for wave and heat equations. The first lecture introduces the general philosophy of the series: starting from physical resonance mechanisms, one derives effective point-actuator models of Foldy–Lax type and uses them to orient the analysis toward tracking and stabilization problems in control theory. The next two lectures develop this program in two representative settings, namely acoustic field generation by clusters of bubbles and heat generation by plasmonic nanoparticles. The final lecture synthesizes these case studies and discusses broader perspectives, including the use of reduced models for control design, direct control questions at the level of the original transmission problems, and possible extensions to other systems such as elasticity and other hybrid models. In this way, the series of lectures emphasizes that asymptotic reduction is the key step that connects resonance theory with PDE control.
授课人简介:M. Sini got his PhD degree from University of Provence, France, in October 2002. From September 2006, he joined the Radon Institute, of the Austrian Academy of Sciences, where he was tenured since 2011 as a senior fellow (equivalent to university professor) after securing the Habilitation degree from J. Kepler University in 2009. M. Sini was invited to deliver the IAAM Award Lecture (Sweden, August 2019) and an invited plenary speaker in the Applied Inverse Problems (AIP) conference (Grenoble, France, July 2019). He attracted around 2 Mi euro as third-party funding. M. Sini is interested in the analysis of partial differential equations applied to inverse problems, mathematical imaging, mathematical therapy and material theory. By now, he published nearly 100 papers, most of them in top journals, several book chapters and co-edited a book. He is member of the editorial board of several journals including Mathematical Methods in Applied Sciences (Wiley) and Communication on Analysis and Computation (AIMS).
课程计划
授课日期
Date of Lecture |
课程名称
Title of Lectures |
授课时间(北京时间)
Schedule (Beijing Time) |
地点
Location |
May 11, 2026 |
Lecture 1A. General Overview: Modeling resonant scatterers and deriving effective actuator models. |
15:00-16:00 |
Zoom 会议
|
May 11, 2026 |
Lecture 1B. General Overview: From effective models to tracking and stabilization problems. |
16:10-17:10 |
Zoom 会议 |
May 13, 2026 |
Lecture 2A. Acoustic Generation by Resonant Bubbles: Bubble resonance and Foldy–Lax approximation of acoustic fields. |
15:00-16:00 |
Zoom 会议
|
May 13, 2026 |
Lecture 2B. Acoustic Generation by Resonant Bubbles: Using bubble actuator models for wave tracking and field manipulation. |
16:10-17:10 |
Zoom 会议
|
May 14, 2026 |
Lecture 3A. Heat Generation by Plasmonic Nanoparticles: Thermo-plasmonic modeling and reduced heat-source approximations. |
15:00-16:00 |
Zoom 会议
|
May 14, 2026 |
Lecture 3B. Heat Generation by Plasmonic Nanoparticles: Feedback stabilization and tracking for heat equations with resonant actuators. |
16:10-17:10 |
Zoom 会议
|
May 14, 2026 |
Lecture 3C. Future topics discussion I. |
17:20-18:20 |
Zoom 会议
|
May 18, 2026 |
Lecture 4A. Summary and Perspectives: Reduced models and control principles in the bubble and plasmonic frameworks. |
15:00-16:00 |
Zoom 会议
|
May 18, 2026 |
Lecture 4B. Summary and Perspectives: Control from transmission models, other PDEs, and open problems. |
16:10-17:10 |
Zoom 会议
|
May 19, 2026 |
Lecture 4C. Future topics discussion II. |
17:20-18:20 |
Zoom 会议
|
