Lecture

Advanced Additive Manufacturing Technologies: Light Engine

Related lectures (30)

Explores circular polarized waves, reflection, lenses, and human vision optics.

Covers the basics of image acquisition, including optical devices, resolution factors, lens distortions, and sensor technologies.

Image Formation: Lens and Mirror System

Covers the formation of images by lens and mirror systems.

Electron Microscopy Components

Covers electron microscope components, vacuum systems, aberrations, detectors, and specimen holders.

Stress-based Frequency Tuning

Explores stress-based frequency tuning in micro/nanomechanical devices, covering black body radiation, optical nonlinearity, NETD, and dynamic range.

Focusing Thermal Sources: Gaussian Beams

Explores the transformation of spherical waves into converging ones using lenses and discusses Gaussian beams' properties and focusing of thermal sources.

Algorithmic Complexity: Travel Time Analysis

Covers algorithmic complexity and travel time analysis, focusing on measuring the time taken by algorithms and evaluating their performance.

Optical Systems: Lenses and Eye Anatomy

Explores ray constructions through lenses, total internal reflection, dispersion, and eye anatomy.

Electron Microscope Components

Covers the components and technologies used in electron microscopy, including detectors, lenses, aberrations, and specimen holders.

Optical Aberrations: Spherical and Chromatic

Explores spherical aberration, astigmatism, coma, and chromatic aberration in lenses.

Microscopy and Imaging Systems

Covers the fundamental concepts of microscopy, explaining the need for magnification beyond the human eye and introducing advanced imaging techniques.

Ray Optics: Thin Lens

Explains ray optics principles, focusing on thin spherical lenses and object-image relationships.

Electromagnetic Fields and Optics

Explores electromagnetic fields, forces, waves, optics, interference, diffraction, refraction, reflection, lenses, and instruments.

Ray Optics

Introduces the basic principles of ray optics, covering topics such as microscopy aspects, image formation, and laws of reflection and refraction.

Complexity of Algorithms

Explores algorithm complexity, analyzing efficiency and worst-case scenarios of sorting algorithms.

Optical Aberrations: Understanding and Minimizing

Explores optical aberrations, including spherical aberration, astigmatism, and chromatic aberration, and discusses methods to minimize them.

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.

Complexity & Induction: Algorithms & Proofs

Covers worst-case complexity, algorithms, and proofs including mathematical induction and recursion.

TEM Lenses: Condenser, Objective, and Projector

Explores the roles of condenser, objective, and projector lenses in a TEM.

Responding to Feedback

Explores the impact of feedback on teaching and provides strategies for improvement based on student evaluation and self-reflection.