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  1. [Illinois] Accurate Solutions Of Extremely Large Integral-Equation Problems Involving Complex Metamaterial Structures

    29 Dec 2014 | Online Presentations | Contributor(s): Levent Gurel

  2. Light-Guiding Polymer Drug-Delivery System

    29 Dec 2014 | Presentation Materials | Contributor(s): Eugenia Volkova

  3. [Illinois] Spectral Method for Linear and Nonlinear Phenomena in Nanophotonics

    29 Dec 2014 | Online Presentations | Contributor(s): Qing Huo Liu

  4. [Illinois] Genomics with Semiconductor Nanotechnology

    29 Dec 2014 | Online Presentations | Contributor(s): Jean-Pierre Leburton

    The single-atom thickness of monolayer graphene makes it an ideal candidate for DNA sequencing as it can scan molecules passing through a nanopore at high resolution. Additionally, unlike most insulating membranes, graphene is electrically active, and this property can be exploited to control...

  5. [Illinois] Surface Plasmons

    29 Dec 2014 | Online Presentations | Contributor(s): Mahta Moghaddam

  6. ME 592 Lecture Guest Lecture 1: Stereo Particle Image Velocimetry

    11 Dec 2014 | Online Presentations | Contributor(s): Pavlos Vlachos

  7. Scale cards activity

    11 Dec 2014 | Teaching Materials

    Investigating size and scale using the metric system, from nano to macro

  8. The R3 Model: Device Physics

    16 Dec 2014 | Online Presentations | Contributor(s): Colin McAndrew

    This talk presents an in depth look at how semiconductor resistors work and the physics for the R3 transistor model.

  9. A Scalable Parallel Eigensolver for Large- scale Simulations on Petascale Computing Environment

    11 Dec 2014 | Online Presentations | Contributor(s): Tetsuya Sakurai

    In this talk, we present a parallel eigensolver (SS method) for large-­‐scale interior eigenvalue problems. This method has a good parallel scalability according to a hierarchical structure of the method. We also show software packages z-­‐Pares and CISS that are implementations of the...

  10. Incorporation of Studio Exercises for Physics Instruction at all Levels

    11 Dec 2014 | Online Presentations | Contributor(s): Christopher M. Sorensen

    In this talk I will give examples of studio activities from all three and observations with regard to how well this form of instruction works. I will also discuss problems incurred with regard to class size and time limitations. My goal is to encourage my audience to implement studio instruction...

  11. 9nm GaSb-InAs TFET Models with Doped Source Underlap for Circuit Simulations

    03 Dec 2014 | Downloads | Contributor(s): Ankit Sharma, Arun Goud Akkala, Kaushik Roy

    This zip contains Verilog-A compact lookup table models for 9nm channel length GaSb-InAs TFET which can be used in HSPICE netlists for circuit simulations. Device simulation data for constructing the lookup table model was generated using NEMO5 atomistic tight binding transport simulator (also...

  12. Optically Probing the Nanoarchitecture of Cells and Tissues

    19 Mar 2015 | Online Presentations | Contributor(s): Steven L. Jacques

    This seminar presents our current work on using light to probe the nanoarchitecture (1-1000 nm) of cells and tissues. In particular, our experiments with SHG and holographic imaging of angular scattering of photons explore the structure of collagen fibers. Our work with confocal reflectance...

  13. High-Frequency Carbon Nanotube Transistors: A Multi-Scale Simulation Framework

    07 Jan 2015 | Online Presentations | Contributor(s): Martin Claus

    The talk gives an overview on a multi-scale simulation framework with which this question can be answered. Methods to study the steady-state and transient quantum and semi-classical transport phenomena in CNTFETs and their application for the optimization of CNTFETs will be discussed. Special...

  14. High-Frequency Carbon Nanotube Transistors: Fabrication, Characterization, and Compact Modeling

    14 Jan 2015 | Online Presentations | Contributor(s): Martin Claus

    The talk covers different aspects in the manufacturing of high-frequency CNTFETs, electrical device characterization and compact modeling of CNTFETs. The applicability of the semi physics-based compact model CCAM for designing digital and analog HF circuits is shown. In particular, the model...

  15. Multiscale Modeling of Thermoelectric Cooler

    17 Dec 2014 | Tools | Contributor(s): Allison Anne Campbell, Mohammad Zunaidur Rashid, afsana sharmin, Shaikh S. Ahmed

    This tool simulates a practical thermoelectric cooler unit with atomistic models

  16. Statistical SPICE Modeling Using Backward Propagation of Variance (BPV)

    16 Dec 2014 | Online Presentations | Contributor(s): Colin McAndrew

    A key part of IC design is to characterize manufacturing variations in circuit performances. This requires accurate statistical circuit simulation models. The different types of statistical models that are required for different types of statistical circuit analyses will be reviewed, and the...

  17. The MVS Nanotransistor Model: A Case Study in Compact Modeling

    26 Nov 2014 | Online Presentations | Contributor(s): Shaloo Rakheja

    In this talk, I will present my view on building an industry-standard compact model by using the MVS model as a case study. In the first part of the talk, I discuss mathematical issues, such as the smoothness of functions and their higher-order derivatives in connection with the MVS model. While...

  18. NSAC Meeting Minutes November 13

    18 Nov 2014 | Papers | Contributor(s): nsac nsac

  19. The MVS Nanotransistor Model: A Primer

    26 Nov 2014 | Online Presentations | Contributor(s): Mark Lundstrom

    In this talk, I will present a gentle introduction to the MVS model. I’ll show how the basic equations of the model can be obtained by using a traditional approach to MOSFETs. I’ll then indicate how the parameters in this traditional model must be re-interpreted in order to capture...

  20. Lecture 5: Systems of Identical Fermions in the Wigner Formulation of Quantum Mechanics

    18 Nov 2014 | Online Presentations | Contributor(s): Jean Michel D Sellier

    In this lecture, Dr. Sellier discusses about systems of indistinguishable Fermions in the Wigner formulation of quantum mechanics.