Lecture

Photonic Crystals: Fabrication Techniques

Related lectures (32)

Introduces the practical aspects of the Advanced MEMS course and explores MEMS technology, trends, sensors, actuators, and more.

Nanoscale Properties: Surface Effects and Quantum Phenomena

Delves into nanoscale properties, emphasizing surface effects and quantum phenomena, exploring electronic, mechanical, magnetic, photonic, and chemical properties unique to the nanoscale.

AFM Tips and Cantilevers Fabrication

Explores the fabrication of AFM tips and cantilevers, including tip sharpening, thermal oxidation, and the use of carbon nanotubes as probes.

Brillouin Scattering: Photonics Tool

Covers Brillouin scattering, a powerful tool in photonics, explaining material density fluctuations' impact on light and the optical effects of inelastic scatterings.

Dry Etching Techniques

Explores dry etching techniques for different materials, including continuous, pulsed, cryogenic processes, and isotropic etching using SF6.

Nanoscale Properties: Surface Effects and Quantum Phenomena

Delves into nanoscale properties, emphasizing surface effects and quantum phenomena, conductance quantization, and scanning probe microscopy.

Fabrication extended: Etching

Covers the process of etching using wet and dry techniques, explaining definitions, steps, examples, challenges, and solutions.

Lithography: Methods and Importance

Explores lithography methods for defining patterns in micro/nano fabrication and discusses the importance and steps involved in the process.

Glass Microfabrication by Wet Etching

Explores glass microfabrication using wet etching with hydrofluoric acid, covering etching mechanisms, additives impact, and surface effects.

2 Photon Polymerization: Applications

Explores 3D printing using 2 photon absorption, covering two-photon absorption, applications, setup, resolution, printing speed, bio-printing, and micro glass prints.

Micro and Nanofabrication

Covers micro and nanofabrication processes, including plasma etching and dry etching techniques.

Wet Etching: Thin Films and Microfabrication

Explores wet etching processes, including anisotropic and isotropic etching, thin membrane microfabrication, and applications in microfabrication.

Micro and Nanofabrication: Chemical Reactions and Etching Processes

Explores chemical reactions and etching processes in micro and nanofabrication, including Si etching and the formation of porous Si.

Nanoscale MEMS: Fabrication, Tips, and Microscopy

Covers the fabrication of nanoscale MEMS devices and the operation of the Atomic Force Microscope for measuring ultrasmall forces on particles.

Philippe Renaud: A Journey in Microengineering

Celebrates Philippe Renaud's exceptional journey in microengineering, innovation, and education, showcasing his impact on research, education, and interdisciplinary collaborations.

Physics of Photonic Semiconductor Devices

Explores the physics of photonic semiconductor devices, including LEDs, laser diodes, and quantum cascade lasers, emphasizing essential concepts and practical applications.

Photonic Crystals: Components and Waveguides

Explores photonic crystals, waveguides, slow light, high Q cavities, and photonic fibers for frequency selectivity and nonlinear effects.

Micro and Nanofabrication for Optomechanics

Explores the importance of micro- and nanofabrication in optomechanics, covering key processes and challenges in device fabrication.

Ion Beam Etching

Introduces ion beam etchers, combining physical sputtering with chemical activity.

Tissue Optics

Explores Tissue Optics, focusing on Optical Coherence Tomography and light scattering in photomedicine, with applications in ophthalmology, dermatology, cardiology, and gastroenterology.