Concept
Kirchhoff's diffraction formula
Related courses (31)
MICRO-321(b): Optical engineering (for EL)
Ce cours présente différentes facettes de l'optique moderne et met à la fois l'accent sur des bases rigoureuses et des applications pratiques. Le inclut une partie théorique avec un cours ainsi que de
CH-632: Principles and Applications of X-ray Diffraction
Basic theoretical aspects of Crystallography and the interaction between X-ray radiation and matter. Experimental aspects of materials-oriented powder and single crystal diffraction. Familiarization w
ChE-610: Highlights energy research and chemical engineering 1
Synthesis and design of materials for sustainable energ.This seminar series will invite leading researchers from academia, industry, or government agencies to give insightful talks on state-of-the-art
MSE-735: Scanning and Analytical Transmission Electron Microscopy
This intensive course discusses advanced TEM techniques such as: scanning TEM; analytical TEM using EELS and EDX; aberration corrected imaging; and image simulation. It is intended for researchers who
PHYS-201(b): General physics: electromagnetism
The course covers the phenomena, concepts and principles of electricity and magnetism illustrating some of their applications. The unity of the electric, magnetic and optical phenomena and the variety
CH-633: Advanced Solid State and Surface Characterization
State-of-the-art surface/thin film characterization methods of polycrystalline/nano/amorphous materials. Selected topics from thin film X-ray diffraction (GIWAXS, GISAXS, PDF), electronic and optical
PHYS-201(a): General physics : electromagnetism
Le cours traite des concepts de l'électromagnétisme et des ondes électromagnétiques.
ChE-611: Highlights energy research and chemical engineering 2
Synthesis and design of materials for sustainable energy.This seminar series will invite leading researchers from academia, industry, or
government agencies to give insightful talks on state-of-the-ar
MSE-305: Introduction to atomic-scale modeling
This course provides an introduction to the modeling of matter at the atomic scale, using interactive Jupyter notebooks to see several of the core concepts of materials science in action.
PHYS-631: Fundamentals of superresolution optical microscopy and Scanning Probe Microscopy
The course starts from general discussion of the microscopy spatial resolution problem and different proposals to beat classical criteria in the field. Afterwards, modern scanning probe microscopy met