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Modeling of Optical Multilayers for Both Spectra and Admittance Loci

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HAO-CHI CHENG onto DBR

From among the many tutorial lectures available on the nanoHUB, we list a few that convey new approaches to electronics.

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10 tips on how to make slides that communicate your idea, from TED’s in-house expert

Great suggestions for crafting an effective presentation.

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Tanya Faltens onto Communication

I will review progress in the field, with a focus on recent work in Wisconsin in the areas of decoherence and quantum measurement. I will discuss efforts to identify and suppress the dominant source of qubit dephasing, and I will describe a new approach to scalable, high-fidelity qubit measurement based on microwave photon counting. 

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Sandeep Sadahalli onto Quantum Computing

Video and podcast of Ale Strachan's presentation at EAFIT, along with the Presentation slides.

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Tanya Faltens onto Materials in Spanish

This presentation was part of the \“Organic Photovoltaics: Experiment and Theory\” workshop at the 2010 Users\’ Meeting of the Molecular Foundry and the National Center for Electron Microscopy, both DOE-funded Research Centers at Lawrence Berkeley National Laboratory.

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Benjamin Finck onto Presentations2Watch

What is a nanowire? What is a nanotube? Why are they interesting and what are their potential applications? How are they made? This presentation is intended to begin to answer these questions while introducing some fundamental concepts such as wave-particle duality, quantum confinement, the electronic structure of solids, and the relationship between size and properties in nanomaterials.

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Performs simulations of quantum dot quantum computation using a model Hamiltonian with an on-site magnetic field and modulated inter-dot exchange interaction.

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Satria Bisri onto QDs

Quantum Simulation of the Seebeck Coefficient and Electrical Conductivity in a 2D Nanocrystalline Composite Structure using Non-Equilibrium Green\‘s Functions

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Satria Bisri onto QDs

NISE net NanoDays Activities in Spanish

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Tanya Faltens onto Materials in Spanish

This new course will give students hands-on experience with popular computational materials science and engineering software through a series of projects in: electronic structure calculation (e.g., VASP), molecular simulation (e.g., GROMACS), phase diagram modeling (e.g., Thermo-Calc), finite element modeling (e.g., OOF2), and materials selection. The course will familiarize students with a broad survey of software tools in computational materials science, scientific computing, and...

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Simulates ballistic transport through resonant tunneling diodes.

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Michael McLennan onto Superlattices

Nanomedicine

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Teem onto Nanomedicine

In this talk I will focus on our efforts to creatively exploit the unique properties of nano-structured III-nitride materials for novel light emitters and detectors in the currently under-developed near- and far-infrared ranges. Due to large electron effective mass, the nitride intersubband materials require the ability to fine-tune the atomic structure at an unprecedented sub-nanometer level. I will describe our work to understand, model, and control the fundamental underpinnings of light generation and electrical transport in nitride nanostructures.

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Rong Huang onto Band Engineering

quantum and thermal effect in naoscale device

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Gaurav Singh onto FinFET

The goal of this short course is to provide an introduction to the theory and algorithms behind MD simulations, describe some of the most exciting recent developments in the field and exemplify with a few applications applications. The series also includes a tutorial on the nanoMATERIALS simulation tool, an online MD simulation tool available at the nanoHUB. This provides users with a hands-on experience with MD simulations and enables further exploration of some of the concepts described in the lectures.

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Predictive semiconductor device simulation faces a challenge these days. As devices are scaled to nanoscale lengths, the collision-dominated transport equations used in current device simulators can no longer be applied. On the other hand, the use of a better, more accurate Boltzmann Transport Equation (BTE) is hampered by the fact that it is a complicated integro-differential 6-dimensional kinetic equation and is extremely difficult to solve. Previous works on solving the BTE have used either …

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dhana sekaran onto PAPERS

https://nanohub.org/resources/15014#series

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ADEPT is a tool for PV simulations.

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Attendees participate in two weeks of lectures and hands-on training in engineering and physical science laboratory techniques by experts in the field. Topics include cancer nanotechnology, cell mechanics, molecular biology, micro fabrication, and NanoBio devices.

Featuring invited lecturers from:


California Institute of Technology Georgia Institute of Technology Harvard University Massachusetts Institute of Technology Northwestern University Stanford…

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GEMS 4 Summer School Topics:

Fundamentals of Cell and Molecular Biology Basics of Mechanics in connection with Biological Systems Mechanotransduction at a distance in a living cell Mechanics insights into the pathophysiology of human disease; Microfluidics approaches to studying human diseases Effects of mechanical stiffness and applied force on ligand-receptor binding kinetics at the cell-material interface Fundamentals of molecular dynamics and computational molecular …

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nanoHUB.org, a resource for nanoscience and nanotechnology, is supported by the National Science Foundation and other funding agencies. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.