Transmission Electron Aberration-Corrected Microscope (TEAM) is a collaborative research project between four US laboratories and two companies. The project's main activity is design and application of a transmission electron microscope (TEM) with a spatial resolution below 0.05 nanometers, which is roughly half the size of an atom of hydrogen. The project is based at the Lawrence Berkeley National Laboratory in Berkeley, California and involves Argonne National Laboratory, Oak Ridge National Laboratory and Frederick Seitz Materials Research Laboratory at the University of Illinois at Urbana-Champaign, as well as FEI and CEOS companies, and is supported by the U.S. Department of Energy. The project was started in 2004; the operational microscope was built in 2008 and achieved the 0.05 nm resolution target in 2009. The microscope is a shared facility available to external users. (Wikipedia).
Physics 59 Optical Instruments (10 of 20) Magnification of a Microscope: Exact Approach
Visit http://ilectureonline.com for more math and science lectures! To donate: http://www.ilectureonline.com/donate https://www.patreon.com/user?u=3236071 We will learn the EXACT approach to find the magnification of a microscope given the length of microscope=20cm, focal distance object
From playlist PHYSICS 59 OPTICAL INSTRUMENTS
Physics 59 Optical Instruments (11 of 20) Magnification of a Microscope: Example
Visit http://ilectureonline.com for more math and science lectures! To donate: http://www.ilectureonline.com/donate https://www.patreon.com/user?u=3236071 We will find the magnification of strained viewing=? and relaxed viewing=? of a microscope given the length of microscope=20cm, foca
From playlist PHYSICS 59 OPTICAL INSTRUMENTS
Petar Petrov - Laser phase-contrast transmission electron microscopy & computational opportunities
Recorded 15 November 2022. Petar Petrov of the University of California, Berkeley, presents "Laser phase-contrast transmission electron microscopy and associated computational opportunities" at IPAM's Cryo-Electron Microscopy and Beyond Workshop. Abstract: A phase plate can provide optimum
From playlist 2022 Cryo-Electron Microscopy and Beyond
Materialism Podcast Ep 10. Seeing with Electrons
The optical microscope was discovered in the 17th century and ever since has been a staple of scientific discovery. It uncovered germs and let humanity investigate the microscopic world. However, optical microscopes face a limit to their resolution since they rely on visible light. If mate
From playlist Materialism Podcast
Atoms in Action with Professor Pratibha Gai
Chemical reactions are the backbone of technologies at the heart of modern society, but what is happening at the atomic level? In this Ri lecture, Professor Pratibha Gai explains how she developed an atomic resolution-environmental transmission electron microscope (atomic resolution-ETEM)
From playlist Ri Talks
Juan Carlos Idrobo - Quantum Phenomena & Electron Microscopy: New Possibilities & Limitations
Recorded 28 October 2022. Juan-Carlos Idrobo of the University of Washington presents "Into the Realms of Quantum Phenomena with Electron Microscopy: Exploring New Possibilities & Limitations" at IPAM's Mathematical Advances for Multi-Dimensional Microscopy Workshop. Abstract: Electron ene
From playlist 2022 Multi-Modal Imaging with Deep Learning and Modeling
Peter Binev - Modeling in Electron Microscopy - IPAM at UCLA
Recorded 13 September 2022. Peter Binev of the University of South Carolina presents "Modeling in Electron Microscopy" at IPAM's Computational Microscopy Tutorials. Learn more online at: http://www.ipam.ucla.edu/programs/workshops/computational-microscopy-tutorials/?tab=schedule
From playlist Tutorials: Computational Microscopy 2022
Physics 59 Optical Instruments (9 of 20) Magnification of a Microscope: Simple Approach
Visit http://ilectureonline.com for more math and science lectures! To donate: http://www.ilectureonline.com/donate https://www.patreon.com/user?u=3236071 We will learn the SIMPLE approach to find the magnification of a microscope given the length of microscope=20cm, focal distance objec
From playlist PHYSICS 59 OPTICAL INSTRUMENTS
Physics - Ch 66 Ch 4 Quantum Mechanics: Schrodinger Eqn (81 of 92) Transmission Coeff., Original Eq
Visit http://ilectureonline.com for more math and science lectures! In this video I will, like in the previous video, calculate the amplitude, |F|=?, of an electron=1eV that make it through the barrier (region 3) of potential=2eV where the width of the barrier=500pm. Except in this video
From playlist PHYSICS 66.1 QUANTUM MECHANICS - SCHRODINGER EQUATION
Physics 60 Optics: Double Slit Interference (5 of 25) Finding the Intensity of Interference Pattern
Visit http://ilectureonline.com for more math and science lectures! In this video I will calculate the intensity of an interference pattern at any point along the screen.
From playlist PHYSICS 60 INTERFERENCE OF LIGHT
UCI Physics 3C: Basic Physics III (Fall 2013) Lec 22. Basic Physics III View the complete course: http://ocw.uci.edu/courses/physics_3c_basic_physics_iii.html Instructor: Michael Smy, Ph.D. License: Creative Commons CC-BY-SA Terms of Use: http://ocw.uci.edu/info More courses at http://ocw
From playlist Physics 3C: Basic Physics III
Nigel Browning - Inpainting Approaches to Dose Control in High Resolution and In-Situ STEM
Recorded 24 October 2022. Nigel Browning of the University of Liverpool presents "Inpainting Approaches to Dose Control in High Resolution and In-Situ STEM" at IPAM's Mathematical Advances for Multi-Dimensional Microscopy Workshop. Abstract: For many imaging and microanalysis experiments u
From playlist 2022 Mathematical Advances for Multi-Dimensional Microscopy
Physics 60 Optics: Double Slit Interference (2 of 25) Phase Difference and Double Slit
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain how phase difference is created by light traveling through a double slit.
From playlist PHYSICS 60 INTERFERENCE OF LIGHT
Physics - Modern Physics (7 of 26) Compton Scattering
Visit http://ilectureonline.com for more math and science lectures! In this video I will show you how to find the wavelength of the scattered photon using the Compton scattering equation.
From playlist MOST POPULAR VIDEOS
Bryan Reed - Compressive sensing and other fast-deflection tricks in an electron microscope
Recorded 25 October 2022. Bryan Reed of Integrated Dynamic Electron Solutions presents "Compressive sensing and other fast-deflection tricks in an electron microscope" at IPAM's Mathematical Advances for Multi-Dimensional Microscopy Workshop. Abstract: Adding electrostatic deflectors to a
From playlist 2022 Mathematical Advances for Multi-Dimensional Microscopy
Colin Ophus - Multi-dimensional scanning transmission electron microscopy to solve 3D nanostructures
Recorded 24 October 2022. Colin Ophus of Lawrence Berkeley Laboratory presents "Using multi-dimensional scanning transmission electron microscopy to solve 3D nanostructures using atomic electron tomography" at IPAM's Mathematical Advances for Multi-Dimensional Microscopy Workshop. Abstract
From playlist 2022 Mathematical Advances for Multi-Dimensional Microscopy
Lenses, refraction, and optical illusions of light
Optics, lenses, and optical illusions created by the refraction of light explained with 3D ray diagrams. My Patreon page is at https://www.patreon.com/EugeneK
From playlist Physics
Physics - Ch 66 Quantum Mechanics 2: Basic Concepts (9 of 38) The Compton Wavelength
Visit http://ilectureonline.com for more math and science lectures! In this video I will explore how changes to the rest mass (m0=electron, proton) affect the Compton Wavelength (h/[(m0)(c)]) part of the Compton Effect equation. Next video in this series can be seen at: https://youtu.be/
From playlist PHYSICS 66 - QUANTUM MECHANICS
Chris Russo - Potential electron cryomicroscopy in situ: technology to identify molecules in cells
Recorded 15 November 2022. Chris Russo of the University of Cambridge presents "The potential of electron cryomicroscopy in situ: new technology to identify molecules in cells" at IPAM's Cryo-Electron Microscopy and Beyond Workshop. Abstract: Electron cryomicroscopy (cryoEM) of biological
From playlist 2022 Cryo-Electron Microscopy and Beyond
Physics - Optics: Single Slit Diffraction (15 of 15) Location of Intensities = ? Anywhere
Visit http://ilectureonline.com for more math and science lectures! In this video I will find the intensity anywhere inside the diffraction pattern for any interference pattern. First video in series: http://youtu.be/eCwiuiW_zQU
From playlist PHYSICS 61 DIFFRACTION OF LIGHT