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Quantum Computation Route to Magnetic Phase Discovery
19 Jan 2024 | | Contributor(s):: Arnab Banerjee
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TANMS/MESA Electromagnetism Unit 1: Fundamental Knowledge of Electricity and Magnetism
15 May 2023 | | Contributor(s):: TANMS UCLA
This unit consists of several downloads. The entire unit is available as a zip download. A README file is available as an Adobe PDF document or Microsoft Word document. Please see the README for a description of all component with in the unit.Lesson PlanIntroduction to Electricity | Lessons...
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TANMS/MESA Introduction to Principles and Application of Electromagnitism
15 May 2023 | | Contributor(s):: TANMS UCLA
In this course students apply principles of science and math, and the engineering design process towards developing two projects related to various disciplines in engineering and concepts of electromagnetism.
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TANMS/MESA Electromagnetism Unit 2: Fundamental Knowledge of Lorentz Force and Electric Motor
15 May 2023 | | Contributor(s):: TANMS UCLA
This unit consists of several downloads. The entire unit is available as a zip download. A README file is available as an Adobe PDF document or Microsoft Word document. Please see the README for a description of all component with in the unit.Lesson PlanIntroduction to Lorentz Force | Lessons...
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TANMS/MESA Electromagnetism Unit 3: Application of Electromagnetism for Train Launcher Project
15 May 2023 | | Contributor(s):: TANMS UCLA
This unit consists of several downloads. The entire unit is available as a zip download. A README file is available as an Adobe PDF document or Microsoft Word document. Please see the README for a description of all component with in the unit.Lesson PlanDynamics: Forces and Newton’s Laws of...
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TANMS/MESA Electromagnetism Unit 4: Arduino Design Project Focused on Application of EM
15 May 2023 | | Contributor(s):: TANMS UCLA
This unit consists of several downloads. The entire unit is available as a zip download. A README file is available as an Adobe PDF document or Microsoft Word document. Please see the README for a description of all component with in the unit.Lesson PlanIntroduction to Robotics, Design and...
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Maxwell's Equations Based on New Discoveries in Material Physics
05 Apr 2023 | | Contributor(s):: deepalakshmi chandrasekaran
This paper briefs about the changes in the fundamental nature of Maxwell equations based on the upcoming discoveries and inventions in material science .Especially, regarding the curl nature of electric field not equal to zero in the case of negative perimittivity and divergence of magnetic...
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Micromagnetic Simulation of Magnetic Nanowires (MNW) using OOMMF to Predict Heating Ability
11 Jan 2023 | | Contributor(s):: Yicong Chen
Using the OOMMF simulation tool in nanoHUB, we will learn how to specify properties of the MNWs, such as their geometry and material and how these properties will affect their magnetic reversal behavior. For instance, we will use the graph function in OOMMF to observe the changes of hysteresis...
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A Condensed Matter Physics class and a Course-Based Undergraduate Research Experience (CURE) with the MIT Atomic-Scale Modeling Toolkit
07 Nov 2022 | | Contributor(s):: David Strubbe
In this presentation, Dr. Strubbe will discuss how he has been using the MIT Atomic-Scale Modeling Toolkit as a part of his undergraduate and graduate class on condensed matter physics. In discussion sections, simulations are performed to illustrate concepts like covalent bonding,...
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DC Magnetics
15 Jul 2022 |
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OOMMF on nanoHUB - A Quick Demonstration
22 Nov 2021 | | Contributor(s):: Michael Joseph Donahue
A quick demonstration of OOMMF, Object Oriented MicroMagnetic Framework, on nanoHUB.
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Autonomous Neutron Diffraction Experiments with ANDiE
14 Nov 2021 | | Contributor(s):: Austin McDannald
This tutorial will cover the working principles of ANDiE, how physics was encoded into the design, and demonstrate how ANDiE can be used to autonomously control neutron diffraction experiments.
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Classical Computing with Topological States: Coping with a post-Moore World
21 Jun 2021 | | Contributor(s):: Avik Ghosh
There are two examples I will focus on ? one is doing conventional Boolean logic at low power below the thermal Boltzmann limit, using the topological properties of Dirac fermions to control transmission across a gated interface. The other is doing collective computing using temporal state...
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FDNS21: Machine Learning Guided Synthesis of 2D Materials
27 Apr 2021 | | Contributor(s):: Zheng Liu
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TANMS Fundamental Science Modules
18 Dec 2020 | | Contributor(s):: Maria Pilar O'Cadiz, TANMS UCLA
This three-part module series explores the fundamental science to help you understand multiferroics and investigations carried out within the Engineering Research Center for Translational Applications of Nanoscale Multiferroic Systems (TANMS).
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TANMS Lecture 1.1: Ferromagnetics - Introduction to Magnetism
18 Dec 2020 | | Contributor(s):: TANMS UCLA
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TANMS Lecture 1.2: Ferromagnetics - Introduction to Ferromagnitsm
18 Dec 2020 | | Contributor(s):: TANMS UCLA
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TANMS Lecture 1.3: Ferromagnetics - Science Demo Manipulating Magnetism
18 Dec 2020 | | Contributor(s):: TANMS UCLA
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TANMS Lecture 2.1: Multiferroics - Domains and Hysteresis
18 Dec 2020 | | Contributor(s):: TANMS UCLA
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TANMS Lecture 2.2: Multiferroics - Zeeman and Degmagnetization Energies
18 Dec 2020 | | Contributor(s):: TANMS UCLA