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  1. A Crash Course in Nanophotonic Simulations

    18 Jun 2015 | Online Presentations | Contributor(s): Peter Bermel

    This seminar will cover rapid, scalable computational methods used in simulating optical reflection,transmission, and absorption in complex structures. After a brief survey of the tools available, the S4 simulation tool will be demonstrated in detail.

  2. Along for the Ride: Reflections on the Past, Present, and Future of Nanoelectronics

    25 Jun 2015 | Online Presentations | Contributor(s): Mark Lundstrom

  3. Thermophotovoltaic Experiment

    15 Jun 2015 | Tools | Contributor(s): Evan L Schlenker, Zhou Zhiguang, Peter Bermel, Haejun Chung (editor), Haejun Chung (editor)

    Simulates thermophotovoltaic system, accounting for thermal losses.

  4. MIF generator for OOMMF

    17 Jun 2015 | Tools | Contributor(s): Zachary Yu, Jung Jin Park, Tanya Faltens, Rafatul Faria, Supriyo Datta

    Provide highly-customized input model file for OOMMF

  5. The PhotonicVASEfit Tutorial

    18 Jun 2015 | Online Presentations | Contributor(s): Ludmila Prokopeva, Alexander V. Kildishev

    This online presentation will help you to get started with our simulation tool PhotonicVASEfit. In the introduction we explain the scenarios in which the simulation tool can be used. We describe the fitting models and give a demo with complete how-to-use instructions.

  6. MD simulations of shock loading

    11 Jun 2015 | Tools | Contributor(s): edwin alberto antillon, Mitchell Anthony Wood, Mathew Joseph Cherukara, Alejandro Strachan

    Use MD simulation to study shocks in various materials including metals and energetics

  7. Gaussian processes 1D

    10 Jun 2015 | Tools | Contributor(s): Ilias Bilionis, Juan Camilo Lopez, Yinuo Li

    Allows the user to sample functions from a Gaussian process.

  8. OpenKIM Explorer

    09 Jun 2015 | Tools | Contributor(s): Benjamin P Haley, Dan Karls, Alejandro Strachan, Ryan S Elliott, Ellad B Tadmor

    Query the OpenKIM repository for names of interatomic Models for simulating selected materials

  9. Quantum Mechanics for Everyone

    03 Jun 2015 | Online Presentations | Contributor(s): Erica W. Carlson

    Does an observer determine reality?  Can I use quantum mechanics to create my own reality?  Quantum mechanics takes us into the wild and wacky world of the really small where particles are waves, waves are particles, and the physical intuition we have from our everyday life doesn't...

  10. A Signed Particle Formulation of Non-Relativistic Quantum Mechanics

    03 Jun 2015 | Papers | Contributor(s): Jean Michel D Sellier

    A formulation of non-relativistic quantum mechanics in terms of Newtonian particles is presented in the shape of a set of three postulates. In this new theory, quantum systems are described by ensembles of signed particles which behave as field-less classical objects which carry a...

  11. Quantum Clusters Theories Lecture 4: Ongoing Work - A Quantum Cluster Theory for Anderson Localization in Correlated Systems

    15 Jun 2015 | Online Presentations | Contributor(s): N. S. Vidhyadhiraja

    In the last lecture, we present some recent developments to describe the phenomenon of Anderson localization in metals, interacting systems, superconductors and real materials.

  12. Quantum Clusters Theories Lecture 3: Nonlocal Dynamical Fluctuations Beyond DMFT and the Dynamical Cluster Approximation

    07 Jun 2015 | Online Presentations | Contributor(s): N. S. Vidhyadhiraja

    In this lecture, an introduction to these cluster extensions is given, with a special focus on dynamical cluster approximation (DCA). Even with cluster extensions, it turns out that coherent back-scattering effects are ignored, and hence phenomena such as Anderson localization are not captured...

  13. Quantum Cluster Theories Lecture 2: Dynamical Mean Field Theories for Bulk, Layered, Disordered and Nano-systems

    02 Jun 2015 | Online Presentations | Contributor(s): N. S. Vidhyadhiraja

    In this lecture, a slightly in-depth introduction to dynamical mean field theory (DMFT) will be followed by its extensions to disordered, layered, nano-systems and integration with density functional theory based approaches to describe real materials. DMFT neglects non-local dynamical...

  14. Quantum Cluster Theories Lecture 1: Quantum Cluster Approaches for Investigating Strongly Correlated Electronic Systems

    02 Jun 2015 | Online Presentations | Contributor(s): N. S. Vidhyadhiraja

    In this lecture we introduce the material systems, models and techniques at a general level and highlight the successes and failures of these methods.

  15. Quantum Cluster Theories Short Course

    02 Jun 2015 | Courses | Contributor(s): N. S. Vidhyadhiraja

    Quantum cluster theories for strongly correlated Systems: Model Hamiltonians and real materials.

  16. nuSIMM: nanoHUB user Simulation Interface for Molecular Modeling

    26 May 2015 | Tools | Contributor(s): Michael Fortunato, Lauren Abbott, Kyle E Hart, coray colina

    Simulated polymerization, equilibration, and characterization of molecular models

  17. Shape Generator for the Discrete Dipole Approximation

    28 May 2015 | Downloads | Contributor(s): Manoj Seeram, Gregory T. Forcherio, Phillip Blake, D. Keith Roper

    This page is no longer supported. Updated content has been moved to: https://nanohub.org/resources/ddscatshapegene/about The Shape Generator the Discrete Dipole Approximation has been uploaded to nanoHUB at the above link as a tool so that users can use the application on their browser...

  18. 3D Topological Insulator Nanowire NEGF Simulation on GPU

    28 May 2015 | Downloads | Contributor(s): Gaurav Gupta

    This code developed in C and CUDA simulates the carrier transport in three-dimensional (3D) topological insulator (TI) nanowire, with Bi2Se3 as exemplar material, with or without impurities, edge defects, acoustic phonons and vacancies for semi-infinite or metallic...

  19. Virtual Fracture Propagation Laboratory

    20 May 2015 | Tools | Contributor(s): Polina Alexeenko, Johanna Bjork Palsdottir, Yuesong Xie, Marisol Koslowski

    Crack Test Using Phase Field Damage Model

  20. MEMOSA-based 2-Dimensional Pull-In Voltage Simulation

    19 May 2015 | Tools | Contributor(s): Peter Kolis

    Determine the pull-in voltage of a membrane under electrostatic actuation using the MEMOSA FVM module