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The images below represent just a tiny sampling of the marvels that scientists are discovering at the nanoscale. Many of them are from the online
gallery of Harvard physicist Eric J. Heller, who generates them in the course of studying wave behavior and chaos in the quantum realm. But they also include one example apiece from the work of Vincent
H. Crespi at Pennsylvania State University; Chad Mirkin at Northwestern University; and Ghim
Wei Ho and Mark Welland at the University of Cambridge. |
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Download the screen saver for Mac OS X (2.53MB) |
Installation instructions |
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Boron Nitride Nanotube |
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A view down the middle of a boron nitride nanotube. |
Credit: © Vin Crespi, Penn State Physics. Distributed
under the Creative Commons license
http://creativecommons.org/licenses/by-sa/2.0 |
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Crystal_I |
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Looking corner-on at a small cubic sample of a perfect crystal consisting of a periodic array of three different atoms. |
Credit: Eric J. Heller, Harvard University |
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Dendrite |
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Electrons injected at the top of the image rain down in a branched flow pattern, as they ride over a bumpy landscape. |
Credit: Eric J. Heller, Harvard University |
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Exponential |
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Electrons launched from the upper right fan out and then form branches, as an indirect effect of traveling over bumps. |
Credit: Eric J. Heller, Harvard University |
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Gold Nanorods |
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The self-assembly of polymer nanorods results in a curved structure |
Credit: Chad Mirkin, Northwestern University |
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Nano Flower Bouquet |
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A three-dimensional nanostructure grown by controlled nucleation of silicon carbide nanowires on Gallium catalyst particles. As the growth proceeds, individual nanowires 'knit' together to form 3D structures. |
Credit: © Ghim Wei Ho, Prof. Mark Welland, Nanostructure Center, University of Cambridge
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Nano Wire |
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Electron paths in a nanowire, including imperfections in the wire. |
Credit: Eric J. Heller, Harvard University |
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Torus I |
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Track left by resonant energy transfer between two different types of motion. |
Credit: Eric J. Heller, Harvard University |
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Torus II |
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Track left by resonant energy transfer between two different types of motion.
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Credit: Eric J. Heller, Harvard University |
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Transport IV |
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Electrons launched from the bottom fan out and then form branches, as an indirect effect of traveling over bumps. |
Credit: Eric J. Heller, Harvard University |
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Download the screensaver for Windows (2.59MB) |
To download the screensaver for Mac OSX (2.53MB) |
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PC Instructions |
To install the screen saver,
right-click nsf_screensaver_setup.exe to download it to your
computer. Then double-click the setup file and follow the
instructions to install it. The Settings window will open
automatically to allow you to choose the time for each image
on the screen; when you close that window the Display Properties
window will be open. This screen saver will be selected by
default. You can change to a different screen saver here, or
disable all screen savers.
Installation of the screen saver may require administrative access to your PC, which may be provided by your IT department.
If at some point in the future you decided to disable or
re-enable this screen saver, simply right-click your desktop
and choose Properties from the popup menu to open the Display
Properties window. Click the screen saver tab and choose your
settings.
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Mac OS X Instructions |
To install the screen saver, download and
unstuff the .sit file. Double click the "nano_screensaver_osx"
icon. The installer will guide you through the installation
process. It will open your Desktop and Screen Saver control
panel from your System Preferences. To customize, click the
Options button. Choose the display time and the Playback Size
of the screen saver. Once your selections have been made,
close the Options window by clicking OK. To save your changes,
simply close the Desktop and Screen Saver control panel. |
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This screen saver is provided "as is"
for personal use only. Please review our Copyright
policy.
Cover Page Credit: Eric J. Heller, Harvard University
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