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Profile picture of Ayesha Prakash Patel

Ayesha Prakash Patel onto Mumbai Escorts

Atomic Force Microscopy (AFM) is an indispensible tool in nano science for the fabrication, metrology, manipulation, and property characterization of nanostructures. This tutorial reviews some of the physics of the interaction forces between the nanoscale tip and sample, the dynamics of the oscillating tip, and the basic theory of some of the common modes of AFM operation. The tutorial summarizes some of the exciting new applications of Atomic Force Microscopy.

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Profile picture of Taneha Littlejohn

Taneha Littlejohn onto SensorInfo

Welcome to the ECE 656 Introductory lecture. The objective of the course is to develop a clear, physical understanding of charge carrier transport in bulk semiconductors and in small semiconductor devices.The emphasis is on transport physics and its consequences in a device context. The course does not focus on theory or computer simulation; it is a practical course for those interested in devices.

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Profile picture of Taneha Littlejohn

Taneha Littlejohn onto SensorInfo

Neuroengineering as a discipline is still very young- journals devoted to it were first published less than ten years ago. The emerging discipline of neuroengineering, or neural engineering, seeks to understand, enhance, and interface with neural systems. By incorporating knowledge from various fields ranging from neurology to robotics, this discipline aims to bridge the gap between computers and living organisms. Neuroengineering has huge potential to benefit humanity; neuroengineers hope to …

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Profile picture of Ana Milinović

Ana Milinović onto for later

Simulates ion flow through a channel.

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Profile picture of Ana Milinović

Ana Milinović onto for later

Combination of all tools used in Chapters 10-13 of Neural Systems Modeling by Anastasio

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Profile picture of Ana Milinović

Ana Milinović onto for later

This tool calculates the optimal distribution of particles subject to a Coulombic potential on the surface of a sphere.

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Profile picture of Ana Milinović

Ana Milinović onto for later

This learning module provides information needed to understand how the digitally encoded information in DNA is translated into a functional protein that can be used for biomedical applications.  Activities delve deeper into protein structure and function as well as gene transcription.

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Profile picture of Ana Milinović

Ana Milinović onto for later

Nanofluidics exercise showing the variation of energy and position of methane and butane molecules flowing through an opened carbon nanotube as the system temperature and the length of the nanotube are varied.

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Profile picture of Ana Milinović

Ana Milinović onto for later

Introduction to TCAD Simulation The existing semiconductor industry is now fundamentally built on the assumption that almost every aspect of a chip is first designed in software. Process simulation provides the ability to optimize and control the various processing steps, such as…

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Profile picture of Yan Li

Yan Li onto semiconductor

When we hear the term semiconductor device, we may think first of the transistors in PCs or video game consoles, but transistors are the basic component in all of the electronic devices we use in our daily lives. Electronic systems are built from such components as transistors, capacitors, wires, …

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Profile picture of Yan Li

Yan Li onto semiconductor

By completing the Bandstructure Lab in ABACUS – Assembly of Basic Applications for Coordinated Understanding of Semiconductors, users will be able to understand a) the concept of carriers dispersion in a solid, b) the concept of effective masses and energy gaps, and c) the bandstructure in…

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Profile picture of Yan Li

Yan Li onto semiconductor

Bulk Monte Carlo simulator

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Profile picture of Justin Lavaughn Easley

Justin Lavaughn Easley onto Monte Carlo

This is module A (part 1) of the Testbook for Semiconductor Device Fundamentals.

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Profile picture of Saranya

Saranya onto Devices

Transistor scaling has pushed channel lengths to the nanometer regime where traditional approaches to MOSFET device physics are less and less suitable This short course describes a way of understanding MOSFETs that is much more suitable than traditional approaches when the channel lengths are of nanoscale dimensions. lecture 1 reviews traditional MOSFET theory, and Lecture 2 presents the new approach in its simplest form. Lectures 3A and 3B describe the mathematical treatment of ballistic …

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Profile picture of Saranya

Saranya onto Devices

In the last 50 years, solid state devices like transistors have evolved from an interesting laboratory experiment to a technology with applications in all aspects of modern life. Making transistors is a complex process that requires unprecedented collaboration among material scientists, solid state physicists, chemists, numerical analysts, and software professionals. And yet, as you will see in part 1 of this course (first 5 weeks), that the basics of current flow though solid state …

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Saranya onto Devices

3D Poisson/NEGF solver for the simulation of Graphene Nanoribbon, Carbon nanotubes and Silicon Nanowire Transistors.

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Profile picture of Anibal U Pacheco-Sanchez

Anibal U Pacheco-Sanchez onto 1D and 2D transistors

Simulate the electrical and thermal properties of a graphene field-effect transistor.

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Profile picture of Anibal U Pacheco-Sanchez

Anibal U Pacheco-Sanchez onto 1D and 2D transistors

Analyze performances of carbon nanotube bundle interconnects

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Simulate dislocation movement, crack propagation, nanowire tensile tests, and simple phase transitions

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Profile picture of Pasquale Gallo

Pasquale Gallo onto NanoMech

Coupled molecular statics and finite element simulation of deformation in crystalline solids

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Profile picture of Pasquale Gallo

Pasquale Gallo onto NanoMech

Abinit

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Profile picture of Yongjie Zou

Yongjie Zou onto tools

Transistor scaling has pushed channel lengths to the nanometer regime where traditional approaches to MOSFET device physics are less and less suitable This short course describes a way of understanding MOSFETs that is much more suitable than traditional approaches when the channel lengths are of nanoscale dimensions. lecture 1 reviews traditional MOSFET theory, and Lecture 2 presents the new approach in its simplest form. Lectures 3A and 3B describe the mathematical treatment of ballistic …

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Profile picture of HaoYu Lan 藍浩堉

HaoYu Lan 藍浩堉 onto Nanoelectronics

The goals of this course are to give the student an understanding of the elements of semiconductor physics and principles of semiconductor devices that (a) constitute the foundation required for an electrical engineering major to take follow-on courses, and (b) represent the essential basic knowledge of the operation and limitations of the three primary electronic devices, 1) p-n junctions, 2) bipolar transistors, and 3) field effect transistors, that either an electrical engineer or a computer engineer will find useful in maintaining currency with new developments in semiconductor devices and integrated circuits in an extended career in either field.

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Profile picture of HaoYu Lan 藍浩堉

HaoYu Lan 藍浩堉 onto Nanoelectronics

Fall 2008

This course examines the device physics of advanced transistors and the process, device, circuit, and systems considerations that enter into the development of new integrated circuit technologies. The course consists of three parts. Part 1 treats silicon MOS and MOSFET fundamentals as well as second order effects such as gate leakage and quantum mechanical effects. Short channel effects, device scaling, and fabrication processes and reliability are the subject of Part 2. In Part …

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Profile picture of HaoYu Lan 藍浩堉

HaoYu Lan 藍浩堉 onto Nanoelectronics