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Crystal Viewer 3.0 is a new tool starting from scratch. It is designed based on the old version 2.3.4 and aims to include better visualization and new features. It visualizes 14 Bravais lattices, Miller planes, and crystal structures of specific materials needed for many courses in materials, electronics and chemistry. Users can also create and view materials not contained in our database by setting certain material properties like the basis atom position, the Bravais vector. The main purpose of this educational tool is to provide insight about the crystalline structure of various materials.
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First Time User Guide: This document provides useful information to the users who are using the tool for the first time. It explains some important details about crystallography and usage of the tool.
Version 3.0 (Oct 2014)
- Initial publish
- See this link for an elaborate wishlist of the tool.
NEMO 5, a code under development in the research group of Gerhard Klimeck. NEMO 5 is an open source nanoelectronics device simulator containing a variety of different material and geometry models. Features include the construction of atomistic grids of varying crystal structures, multiband Schroedinger-Poisson simulations, atomistic strain and phonon computations, quantum transport using open-boundary wavefunctions or NEGF, and user-friendly input/output.
Crystal Viewer 3.0 was written and developed by Yuanchen Chu as a PhD student at Purdue University.
Varies other people are also involved in the development of Crystal Viewer 3.0:
Travis Shepherd, Vincent Ntarugera, Kevin Margatan, Zach Shaffter... SURF program students summer intern (< V3.0)
G. Klimeck, H.-H. Park, J. Fonseca, J. Sellier, M. Povolotskyi, S. Steiger, T. Kubis... NEMO 5 simulation engine (in alphabetical order)
The main author Yuanchen Chu is obliged to D. Mejia, G. Klimeck, J. Fonseca, M. Povoltskyi, T. Faltens for the valuable information and advice provided by them.
Network for Computational Nanotechnology (NCN), Purdue University
Robert F. Pierret, Purdue University, Advanced Semiconductor Fundamentals (Second Edition).
ISBN-10: 013061792X • ISBN-13: 9780130617927 ©2003 • Prentice Hall
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