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  1. Stanford University Resistive-Switching Random Access Memory (RRAM) Verilog-A Model v. 1.0.0

    25 Aug 2014 | Compact Models | Contributor(s): Zizhen Jiang, H.-S. Philip Wong

    The Stanford University RRAM Model is a SPICE-compatible compact model which describes switching performance for bipolar metal oxide RRAM. In principle, this model has no limitations on the size of the RRAM cell. The complex process of ion and vacancy migration was simplified into the growth of...

  2. PAMELA (Pseudospectral Analysis Method with Exchange & Local Approximations)

    29 May 2014 | Downloads | Contributor(s): Bryan M. Wong

    PAMELA (Pseudospectral Analysis Method with Exchange & Local Approximations): calculates electronic energies, densities, wavefunctions, and band-bending diagrams for core-shell nanowires within a self-consistent Schrodinger-Poisson formalism.

  3. Franck-Condon Overlap Integrals

    29 May 2014 | Downloads | Contributor(s): Bryan M. Wong

    Franck-Condon Overlap Integrals: calculates the vibrational overlap integral between two nuclear wavefunctions using the formalism developed by Sharp and Rosenstock [J. Chem. Phys., 41, 3453 (1964)].

  4. Pitzer Inertias

    29 May 2014 | Downloads | Contributor(s): Bryan M. Wong

    Pitzer Inertias: calculates effective Pitzer inertias for large-amplitude torsions

  5. Eckart Inertias

    29 May 2014 | Downloads | Contributor(s): Bryan M. Wong

    Eckart Inertias: calculates effective Eckart inertias for large-amplitude torsions. The Eckart inertias are obtained by solving a system of transcendental equations using the Powell dogleg method. Since this system is highly nonlinear, analytical Jacobians have been implemented in the dogleg...

  6. Mandelbrotx

    29 May 2014 | Downloads | Contributor(s): Bryan M. Wong

    Mandelbrotx: plots interesting Mandelbrot-like sets. These codes make pretty nice pictures.

  7. Ongoing Transformation of Computational Nanophotonics

    18 May 2014 | Online Presentations | Contributor(s): Alexander V. Kildishev

    Computational nanophotonics is one of the central tools of the science of light and photonic device engineering. It plays a crucial role in enabling optical technologies ranging from bio-sensing to quantum information processing. Up to the present, a plethora of various methods and commercial...

  8. Coherent Nonlinear Optics, Backward Waves and Negative Spatial Dispersion

    16 May 2014 | Online Presentations | Contributor(s): Alexander K. Popov

    Extraordinary frequency-converting nonlinear-optical propagation processes associated with backward electromagnetic and elastic waves are described. Particular realizations of negative spatial dispersion which enable such waves are investigated.

  9. ME 517 Lecture 26: Microfluidics - Stokes Sphere Drag II

    13 May 2014 | Online Presentations | Contributor(s): Steve Wereley

  10. ME 517 Lecture 25: Microfluidics - Stokes Sphere Drag I

    13 May 2014 | Online Presentations | Contributor(s): Steve Wereley

  11. ME 517 Lecture 22: Microfluidics - Couette Flow II

    02 May 2014 | Online Presentations | Contributor(s): Steve Wereley

  12. ME 592 Lecture 11: EDPIV Tutorial II

    02 May 2014 | Online Presentations | Contributor(s): Steve Wereley

  13. ME 592 Lecture 10: EDPIV Tutorial I

    02 May 2014 | Online Presentations | Contributor(s): Steve Wereley

  14. Green's Function for Heat Conduction in an Infinite Hollow Cylinder R50 with a Type 5 Boundary Condition

    05 May 2014 | Papers | Contributor(s): Donald E. Amos

    The Green’s function is the principal tool in construction of the general solution to the classical heat conduction problem. The solution is presented in terms of the internal heat generation, initial temperature and integrals which reflect the physical influence of the boundary. In the...

  15. ME 592 Lecture 09: Window Shift and Deformation II

    01 May 2014 | Online Presentations | Contributor(s): Steve Wereley

  16. Green's Function for Heat Conduction in a Semi-infinite Medium X50 with a Type 5 Boundary Condition

    01 May 2014 | Papers | Contributor(s): Donald E. Amos

    The Green's function is the principal tool in construction of the general solution to the classical heat conduction problem. The solution is presented in terms of the internal heat generation, initial temperature and integrals which reflect the physical influence of the boundary. In the...

  17. ME 592 Lecture 08: Window Shift and Deformation I

    30 Apr 2014 | Online Presentations | Contributor(s): Steve Wereley

  18. [Illinois] Cooperation and Construction: From Multicellularity to Eusociality

    28 Apr 2014 | Online Presentations | Contributor(s): Corina Tarnita

    The evolutionary trajectory of life on earth is one of increasing size and complexity. Yet the standard equations of evolutionary dynamics describe mutation and selection among similar organisms that compete on the same level of organization. I will try to outline a mathematical theory that...

  19. [Illinois] Biomaterials to Replicate the Form and Function of Inhomogeneous Structures in the Body

    28 Apr 2014 | Online Presentations | Contributor(s): Brendan Harley

    The extracellular matrix (ECM) is a complex organization of structural proteins such as collagens and proteoglycans. Understanding that the ECM is dynamic and often spatially patterned or heterogeneous over the length-scale of traditional biomaterials, we are developing instructive biomaterials...

  20. [Illinois] Plasmonic Engineering in Nanomedicine

    28 Apr 2014 | Online Presentations | Contributor(s): Srikanth Singamaneni

    Plasmonics involves the control of light at the nanoscale using surface plasmons. One particular area where plasmonics is expected to make an enoromous impact is the field of life sciences, with applications in bioimaging, biosensing, and targted and externally-triggered therapy. In the first...