Concept

Optics

Related lectures (31)

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

Introduction to Optics: Light and Waves

Introduces fundamental optics concepts, covering refraction, reflection, interference, polarization, and more, exploring the behavior of light in different media.

Tissue Optics: Measurement Methods

Explores direct and indirect measurement methods in tissue optics, highlighting challenges and techniques used for in vivo measurements.

Optical Principles

Covers fundamental principles of ray and wave optics, including reflection, interference, diffraction, and spectroscopy.

Stimulated Scatterings: Nonlinear Fibre Optics

Explores stimulated scatterings in nonlinear fibre optics, covering Brillouin and Raman scattering, spectral characteristics, and power limitations.

Optical Methods in Chemistry: Materials Properties and Applications

Explores optical methods in chemistry, focusing on materials properties and applications, including non-linear optics and self-focusing phenomena.

Ray Optics: EM Wave Optics

Explores radiometry, photometry, laser power distribution, and light behavior in different media.

Solar Energy Characteristics and Technology

Covers solar energy characteristics, thermal transport basics, solar thermal collectors, and electrochemistry labs, emphasizing solar fuels and electrochemistry.

Quantum Optics: Atom-Field Interaction

Covers the full quantum theory of atom-field interaction and the synthesis of arbitrary quantum states using unitary evolution operators.

Optical Tweezers: Basics and Applications

Covers the basics of optical tweezers and their applications in microscopy, manipulation, and spectroscopy, as well as the alignment of molecules using laser pulses.

Advancements in Extreme Ultraviolet Metaoptics

Covers the development of ultrathin metasurfaces for manipulating extreme ultraviolet light in advanced optical applications.

Quantum Description of Light: Tissue Optical Parameters

Explores the quantum description of light and tissue optical parameters, including the historical perspective, wave-particle duality, and the interaction between light and tissues.

Advanced Optics: Fundamentals and Applications

Covers fundamental topics in advanced optics, including ray optics, wave optics, and polarization optics.

Dispersion Relation in Vacuum

Covers Maxwell's equations, unit systems, Fourier transform, and charge conservation with exercises on wave equations and dispersion relations.

Advanced Optics: Fano-Resonant Metasurfaces

Explores Fano-resonant metasurfaces, phase control, spectral range, visible range constraints, anomalous reflection, and color routing.

Optical Machine Learning: Harnessing Multiple Scattering for Efficiency

Explores the use of optics in machine learning, focusing on large-scale random matrix multiplication through multiple scattering of light.

Optics: Introduction

Introduces geometric, wave, and electromagnetic optics in a series of three courses.

DLP Printing: Light Engine

Explores the light engine of a DLP printer, historical perspective, micromirror arrays, and wave optics correction.

Image Formation: Lens and Mirror System

Covers the formation of images by lens and mirror systems.

Introduction to Optics: Basics and Applications

Introduces the fundamental concepts of optics, covering quantum optics, wavy optics, and electromagnetic optics, as well as the principles of reflection, refraction, and image formation.