Metamaterials

Related lectures (25)

Explores the development of electroacoustic metamaterials and metasurfaces for noise control and sound absorption.

Explores negative refraction in metamaterials, including experimental verification and engineering of magnetic permeability and negative permittivity.

Extreme Field Control with Electromagnetic Metasurfaces

Explores recent advances in metamaterials, focusing on metasurfaces and their unique field-transforming properties.

Reconfigurable Metasurfaces: Advanced Optics

Explores the design and applications of reconfigurable metasurfaces in advanced optics, including switchable magnetic metamaterials and responsive metasurfaces.

3D Printing of Optical Metasurfaces

Covers the fabrication of optical metasurfaces using 3D printing methods and their applications in various optical devices.

Metamaterial devices for wave control

Explores metamaterial devices for wave control in various applications, from GPS to medical imaging, covering challenges and innovative solutions.

Metamaterials: Fundamentals and Applications

Covers the fundamentals and applications of metamaterials, discussing how materials interact with electromagnetic radiation.

The human ear: a living sensor

Delves into the sensor capabilities of the human ear, exploring non-linear phenomena within the cochlea and the creation of an 'animated' metamaterial.

Metamaterials Evolution

Discusses the evolution of metamaterials from microwaves to optics, showcasing challenges and progress in miniaturization and 3D material realization.

Advanced Optics: Fundamentals and Applications

Covers fundamental concepts in modern photonics, including ray optics, wave optics, polarization optics, material properties, plasmonics, and metamaterials.

Electrochemically Active Metasurfaces: Innovations in Heat Management

Covers the use of electrochemically active metasurfaces for effective multispectral radiative heat management and their implications for energy efficiency and dynamic thermal regulation.

Neuromorphic Computing with Artificial Spin Systems

Explores Neuromorphic Computing with Artificial Spin Systems, discussing the need for new computing paradigms and the potential of artificial spin systems for neuromorphic computing applications.

Computational Design of Deployable Structures

Explores computational design of deployable structures and programmable mechanical metamaterials with stable memory.

Sustainable Additive Manufacturing: Advancements and Challenges

Delves into sustainable additive manufacturing advancements, challenges, and a new design paradigm.

Tensegrity Structures: Dynamic Response and Metamaterials

Explores the dynamic response and design possibilities of tensegrity structures, introducing a novel 3D metamaterial.

Advanced Optics: Refractive Index and Perfect Lens

Explores electromagnetic properties, refractive index, negative refraction, and the concept of a perfect lens for high-resolution imaging.

Light & Matter: Optical Properties and Functional Materials

Explores light interaction with optical media, refractive index, wood structure, and tunable optics in bio-based materials.

Radiation and Antennas: EPFL Networks

Explores the theory of networks, mutual coupling in radiation and antennas, and the use of metamaterials.

GRIN Optics Printing: 2-Photon Polymerization & Direct Ink Writing

Explores GRIN optics fabrication using 2-photon polymerization and direct ink writing techniques, showcasing tunability in 3D printing and multi-material approaches.

Space Trusses & Frames

Covers space trusses, frames, and machines, emphasizing equilibrium analysis and structural design principles.