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Results for "scanning probe microscope"

We found 47 results for your search.

Will a "'proto-prototype' for a nanoassembler" lead to atomically precise manufacturing?

A special issue of the International Journal of Nanomanufacturing presenting topics on manufacturing in 3D at the nanoscale (derived from the 4th International Symposium on Nanomanufacturing held at MIT in November 2006) contains a report of a nanomanipulator for the complex assembly of nanoparticles. Although the press release from Inderscience Publishers, via AAAS EurekAlert (“Are… Continue reading Will a "'proto-prototype' for a nanoassembler" lead to atomically precise manufacturing?

Nanotechnology draws and erases conducting lines three nm wide

In yet another approach to using scanning probe microscopy to build better computer memories, nanotech draws and erases lines three nm wide.

Precisely controlled electron beam provides top-down approach to molecular nanotechnology

French nanotech researchers have used theory to increase the precision of carving with electron beams enough to remove individual atoms from single walled carbon and boron nitride nanotubes.

Europe pulls ahead on single-molecule nanotechnology construction

A team from Belgium, Italy, and France has achieved inspiring nanotech results in bonding single molecules to a surface using an AFM (atomic force microscope). From Nature Nanotechnology, which — as of today at least — is kindly giving free access to the full text of the article: Mechanochemistry: targeted delivery of single molecules The… Continue reading Europe pulls ahead on single-molecule nanotechnology construction

Nano-World: a Swiss virtual campus project in nanophysics

Once again the Europeans are looking good in nanotech education. Check out Nano-World, the Computer Supported Cooperative Environment on Nanophysics. Learn about different kinds of scanning probes, and try “Remote AFM: performing real experiments on a remote controllable microscope.” Check out the tutorial on nanoscale friction.

Picoscale Microscopy

Jerry Fass writes "Physicists in Germany make atomic force microscope able to image features under 100 picometres (0.1 nanometer) across. New "higher-harmonic" force microscope uses one carbon atom as a probe, resolution is at least three times more than standard scanning tunnelling microscopes. http://physicsweb.org/article/news/8/6/6/"

UC Berkeley team uses STM to measure single atom spin

from the in-a-spin dept.
A research team at the University of California at Berkeley has built a scanning tunneling microscope that can measure for the first time the quantum spin of an electronic state of a single atom, in this case an impurity atom embedded in the material. Previously, scientists have had to trap isolated atoms and zap them with a laser to measure their spin state. While the technique already has improved understanding of high temperature superconductors, it also can help probe the spin states of atoms in metals and semiconductors, as well as new materials such as carbon nanotubes or strontium ruthenate superconductors. The researchers also believe their work has potential application in quantum computers. It is thought that quantum computers could take advantage of two-level quantum states such as this to perform calculations far faster than conventional transistor-based computers, and in the process shrink the size of computers immensely. "One of the holy grails of solid state physics is to write and store information in just one atom," said J. C. Seamus Davis, the head of the Berkeley team.

More information is available on the research teamís website.

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