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links [2019/03/04 14:09] – janettate | links [2019/04/01 11:35] – janettate |
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===== Crystal structure ===== | ===== Crystal structure ===== |
* [[http://winter.group.shef.ac.uk/orbitron/|Atomic and molecular orbitals]] from the Sheffield site. Nice pictures and animations. | * [[http://winter.group.shef.ac.uk/orbitron/|"The Orbitron"]] - Atomic and molecular orbitals from Sheffield University. Nice pictures and animations. |
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| * [[http://jmol.sourceforge.net/|Jmol]] and [[https://chemapps.stolaf.edu/jmol/jsmol/jsmol.htm|JSmol]] are open-source software apps to visualize crystal structures. The images in the "orbitron" page from teh Sheffield site use JSmol. |
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* Basic tutorial on [[https://www.doitpoms.ac.uk/tlplib/crystallography3/index.php|unit cells, lattices, symmetry]] - Cambridge University DoITPoMS. | * Basic tutorial on [[https://www.doitpoms.ac.uk/tlplib/crystallography3/index.php|unit cells, lattices, symmetry]] - Cambridge University DoITPoMS. |
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* YouTube video (6 min) about [[https://www.youtube.com/watch?v=CsnNbuqxGTk|conventional unit cells for cubic crystals]]. Note, these are not the same as primitive unit cells. | * YouTube video (6 min) about [[https://www.youtube.com/watch?v=CsnNbuqxGTk|conventional unit cells for cubic crystals]]. Note, these are not the same as primitive unit cells. |
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* Light in a periodic system:[[http://ab-initio.mit.edu/photons/|Photonic crystals ]] research by MIT group - nice pictures. | * Light in a periodic system:[[http://ab-initio.mit.edu/photons/|Photonic crystals ]] research by MIT group - nice pictures. |
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* [[|Principles of Semiconductors]] is a good web book by Bart Van Zeghbroeck of Univ. Colorado. Google it; if I paste the link pasted in this wiki, an error results, so search for it. | |
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* [[http://www.physics.umd.edu/courses/Phys731/einstein/Fall04/weblist.html|another list of links from a similar course]]. | * [[http://www.physics.umd.edu/courses/Phys731/einstein/Fall04/weblist.html|another list of links from a similar course]]. |
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===== Mathematica ===== | ===== Mathematica ===== |
Mathematica (by Wolfram) is one of several extremely useful software programs that is useful for simple visualization of functions, computer-aided algebra, and is also a vehicle for very sophisticated programming. I highly recommend you use it for classwork, for research and for fun. As long as you are an OSU student, you are permitted a free copy for use on your own computer. [[http://www.physics.oregonstate.edu/~tate/COURSES/ph424/Mathematica_info.html|Here]] is a link to a page I wrote for my PH424 physics class describing how to get access, how to use Wolfram's fantastic documentation and tutorials, and I added a few simple templates. | Mathematica (by Wolfram) is one of several extremely powerful software programs that is useful for simple visualization of functions, computer-aided algebra, and is also a vehicle for very sophisticated programming. I highly recommend you use it for classwork, for research and for fun. As long as you are an OSU student, you are permitted a [[https://is.oregonstate.edu/service/software/mathematica|free copy for use on your own computer]]. Wolfram has extensive [[http://www.wolfram.com/broadcast/c?c=86|documentation and tutorials]]. Try something very basic like "the first 10 minutes with Mathematica" - you don't need much more. |
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Here are some Mathematica notebooks that I wrote that are relevant to PH575. | Here are some Mathematica notebooks that I wrote that are relevant to PH575. |