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Contributors: View

Jayathi Murthy

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Contributions 4 (detailed usage)
Affiliation Purdue University, West Lafayette
Web Site http://me.www.ecn.purdue.edu/ME/Fac_Staff/jmurthy
Biography

Prof. Jayathi Murthy received her Ph.D from the University of Minnesota and has worked variously in industry and academia. Most recently, she worked at Fluent Inc. and at Carnegie Mellon University before moving to Purdue in 2001. Her research interests include the development of unstructured finite volume methods for computational fluid dynamics and their application to a variety of physical and industrial problems, most recently in micro-scale heat transfer and thermal radiation.

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  1. BNC Annual Research Review: An Introduction to PRISM and MEMS Simulation

    This resource has a 5.2 Ranking

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    Last 12 Months: updated 01 Jul, 2008
    Users: 6
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    04 Jun. 2008 | Online Presentations | Contributor(s): Jayathi Murthy

    This presentation is part of a collection of presentations describing the projects, people, and capabilities enhanced by research performed in the Birck Center, and a look at plans for the upcoming year.

  2. Modeling and Simulation of Sub-Micron Thermal Transport

    This resource has a 7.4 Ranking

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    Last 12 Months: updated 01 Jul, 2008
    Users: 80
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    27 Sep. 2005 | Online Presentations | 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 …

  3. NanoNET

    This resource has a 5.2 Ranking

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    Overall Period: Updated 19 Jul, 2008
    Users: 316
    Jobs: 1599
    Avg. exec. time: 12 mins
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    17 Jan. 2007 | Tools | Contributor(s): Ninad Pimparkar, Satish Kumar, Jayathi Murthy, Muhammad A. Alam

    NanoNET is a tool to simulate the Nanobundle Network Thin Film Transistors (NB-TFTs). Random networks of carbon nanotubes with thousands of tubes and random orientation can be simulated using this tool. The final answer can be compactly formulated in the formula shown in the picture. Here ID is …

  4. Simulation of Sub-Micron Thermal Transport in Semi-Conduction and Dielectrics

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    09 May. 2005 | Notes | Contributor(s): Jayathi Murthy

    In recent years, there has been increasing interest in understanding thermal phenomena at the sub-micron scale. Applications have included the thermal performance of microelectronic devices, thermo-electric energy conversion, ultra-fast laser machining and many others. More recently, understanding …

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