All Categories (81-100 of 207)

1. Machine Learning Framework for Impurity Level Prediction in Semiconductors

   15 Dec 2020 | | Contributor(s):: Arun Kumar Mannodi Kanakkithodi

   In this work, we perform screening of functional atomic impurities in Cd-chalcogenide semiconductors using high-throughput computations and machine learning.

2. Making the Tiniest and Fastest Transistor using Atomic Layer Deposition (ALD)

   out of 5 stars 

   13 Feb 2006 | | Contributor(s):: peide ye

   Atomic layer deposition (ALD) is an emerging nanotechnology enables the deposit of ultrathin films, one atomic layer by one atomic layer. ALD provides a powerful, new capability to grow or regrow nanoscale ultrathin films of metals, semiconductors and insulators. This presentation introduces ALD...

3. Materials strength: does size matter? nanoMATERIALS simulation toolkit tutorial

   out of 5 stars 

   01 Feb 2007 | | Contributor(s):: Alejandro Strachan

   Molecular dynamics (MD) is a powerful technique to characterize the fundamental, atomic-level processes that govern materials behavior and is playing an important role in our understanding of the new phenomena that arises in nanoscale and nanostructured materials and result in their unique...

4. MATLAB DOs and DON'Ts

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   14 May 2006 | | Contributor(s):: Dmitri Nikonov

   Matlab is widely used for simulations but is believed to be unsuitable for complex projects and to produce slow-running software tools. The presentation argues that blind copying of methods typical of C and Fortran is responsible for such inefficiencies; the presentation teaches avoidance of...

5. MATLAB Tutorial

   Collections | 13 Jul 2018 | Posted by Jesse Lee Hoffman

   https://nanohub.org/groups/ncnure2018/collections/ncn-ure-2018---good-nanohub-resources

6. Measuring Molecular Conductance: A Review of Experimental Approaches

   out of 5 stars 

   09 Jul 2003 | | Contributor(s):: Ron Reifenberger

   Measuring Molecular Conductance: A Review of Experimental Approaches

7. Metal Oxide Nanowires as Gas Sensing Elements: from Basic Research to Real World Applications

   out of 5 stars 

   21 Sep 2009 | | Contributor(s):: andrei kolmakov

   Quasi 1-D metal oxide single crystal chemiresistors are close to occupy their specific niche in the real world of solid state sensorics. Potentially, the major advantage of this kind of sensors with respect to available granular thin film sensors will be their size and stable, reproducible and...

8. Metamaterials, Part 1: Electrical and Magnetic Metamaterials

   out of 5 stars 

   01 May 2008 | | Contributor(s):: Vladimir M. Shalaev

   Part 1/3. Metamaterials are expected to open a gateway to unprecedented electromagnetic properties and functionality unattainable from naturally occurring materials, thus enabling a family of new “meta-devices”. In these three lectures, we review this new emerging field and significant progress...

9. Metamaterials, Part 2: Negative-Index, Nonlinear Optics and Super/Hyper-Lenses

   out of 5 stars 

   01 May 2008 | | Contributor(s):: Vladimir M. Shalaev

   Part 2/3. Metamaterials are expected to open a gateway to unprecedented electromagnetic properties and functionality unattainable from naturally occurring materials, thus enabling a family of new “meta-devices”. In these three lectures, we review this new emerging field and significant progress...

10. Metamaterials, Part 3: Cloaking and Transformation Optics

    out of 5 stars 

    01 May 2008 | | Contributor(s):: Vladimir M. Shalaev

    Part 3/3. Metamaterials are expected to open a gateway to unprecedented electromagnetic properties and functionality unattainable from naturally occurring materials, thus enabling a family of new “meta-devices”. In these three lectures, we review this new emerging field and significant progress...

11. Metamaterials: A New Paradigm of Physics and Engineering

    out of 5 stars 

    01 May 2008 | | Contributor(s):: Vladimir M. Shalaev

    Three part lecture on metamaterials. Metamaterials are expected to open a gateway to unprecedented electromagnetic properties and functionality unattainable from naturally occurring materials, thus enabling a family of new “meta-devices”. In these three lectures, we review this new emerging field...

12. Microphone Selection and Comparison: Hear the Difference

    out of 5 stars 

    08 Aug 2006 | | Contributor(s):: Joseph M. Cychosz

    Selecting a microphone can be a difficult task.For presentations, the quality is very much dependent upon the audio clarity and quality of the naration. For meetings, quality can be somewhat less. This presentation gives an audio comparison of the various options listed with our Microphone...

13. Microstructural Design of Electrically Active Materials and Devices Through Computational Modeling: The OOF Project

    out of 5 stars 

    20 Jan 2009 | | Contributor(s):: R. Edwin Garcia

    We present an overview of a public domain program, the Object Oriented Finite Element analysis (OOF), which predicts macroscopic behavior, starting from an image of the microstructure and ending with results from finite element calculations. The program reads an image (or a sequence of images)...

14. Mini Course on Physical Models

    04 Sep 2019 | | Contributor(s):: Bruno Uchoa

    This mini-course of four lectures is intended to stimulate undergraduate students to think critically about the the modeling process in physics.

15. Modeling and Analysis of VLSI Interconnects

    out of 5 stars 

    10 May 2007 | | Contributor(s):: Cheng-Kok Koh

    With continual technology scaling, the accurate and efficient modeling and simulation of interconnect effects have become problems of central importance. In order to accurately model the distributive effects of interconnects, it is necessary to divide a long wire into several segments, with each...

16. Modeling and Simulation of Sub-Micron Thermal Transport

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    26 Sep 2005 | | Contributor(s):: Jayathi Murthy

    In recent years, there has been increasing interest in understanding thermal phenomena at the sub-micron scale. Applications include the thermal performance of microelectronic devices, thermo-electric energy conversion, ultra-fast laser machining and many others. It is now accepted that Fourier's...

17. Modeling of Nanoscale Devices

    out of 5 stars 

    19 Oct 2006 | | Contributor(s):: M. P. Anantram, Mark Lundstrom, Dmitri Nikonov

    We aim to provide engineers with an introductionto the nonequilibriumGreen’s function (NEGF) approach, which is a powerful conceptual tool and a practical analysismethod to treat nanoscale electronic devices with quantum mechanicaland atomistic effects. We first review the basis for the...

18. Modern X-ray Scattering Methods for Nanoscale Materials Analysis

    out of 5 stars 

    15 Oct 2008 | | Contributor(s):: Richard J. Matyi

    Since its discovery by von Laue in 1912, X-ray diffraction has become an indispensable tool for structure determinations in the physical and biological sciences. X-rays are characterized by high energies and by wavelengths that are commensurate with nanometer-sized structures – unlike optical...

19. Molecular Interferometry

    out of 5 stars 

    26 Jun 2007 | | Contributor(s):: David D. Nolte

    While single-molecule detection through fluorescence has now become common-place, there has been no analogous single-molecule capability using direct detection approaches such as interferometry. This limitation is slowly yielding to high-speed interferoemtric detection that is pushing the...

20. Moore's Law Forever?

    out of 5 stars 

    13 Jul 2005 | | Contributor(s):: Mark Lundstrom

    This talk covers the big technological changes in the 20th and 21st century that were correctly predicted by Gordon Moore in 1965. Moore's Law states that the number of transistors on a silicon chip doubles every technology generation. In 1960s terms that meant every 12 months and currently...