Positional atomic precision: Difference between revisions
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Created page with "A nano-manipulator with atomic resolution can position work pieces at sub Ångström distances. <br> Atomic resolution: * is akin to [//en.wikipedia.org/wiki/Dots_per_inch pr..." |
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* is akin to [//en.wikipedia.org/wiki/Dots_per_inch printing resolution] | * is akin to [//en.wikipedia.org/wiki/Dots_per_inch printing resolution] | ||
* must not be confused with [[atomic precision]] which only require correct bond topology (=connectivity). | * must not be confused with [[atomic precision]] which only require correct bond topology (=connectivity). | ||
Thermal expansion or bending through external forces can spoil [[atomic resolution]] in 3D space over great distances. This isn't a problem in nanofactories where relative distances between (sturdy) AP workpieces and (sturdy) AP tooltips are microscopic. | |||
Revision as of 19:41, 14 February 2014
A nano-manipulator with atomic resolution can position work pieces at sub Ångström distances.
Atomic resolution:
- is akin to printing resolution
- must not be confused with atomic precision which only require correct bond topology (=connectivity).
Thermal expansion or bending through external forces can spoil atomic resolution in 3D space over great distances. This isn't a problem in nanofactories where relative distances between (sturdy) AP workpieces and (sturdy) AP tooltips are microscopic.