Add to ORKGThe one-Angstrom microscope (OAM) project at the USDOE's National Center for Electron Microscopy has extended the limits of high-resolution transmission electron microscopy to sub-Angstrom levels. The OAM combines image-processing software with a modified 300keV electron microscope equipped with a highly-coherent field-emission electron gun. We have found that a reduction in the OAM's electron-gun extraction voltage allows us to "see" silicon atoms separated by only 0.78A
Sub-angstrom resolution is important for nanotechnology. Metal atoms can be routinely imaged in TEM ...
Transmission electron microscopy (TEM) at sub-Angstrom resolution is important for nanotechnology. ...
Transmission electron microscopy (TEM) at sub-Angstrom resolution is important for nanotechnology. I...
The one-Angstrom microscope (OAM) project at the USDOE's National Center for Electron Microscopy has...
We have demonstrated sub-Angstrom TEM to a resolution of 0.78 Angstrom with the one-Angstrom micros...
We have demonstrated sub-Angstrom TEM to a resolution of 0.78 Angstrom with the one-Angstrom microsc...
We have demonstrated sub-Angstrom TEM to a resolution of 0.78 Angstrom with the one-Angstrom micros...
John Cowley and his group at Arizona State University pioneered the use of transmission electron mi...
Phase-contrast imaging in the high-resolution electron microscope produces images with peaks at atom...
Hardware and software correction of spherical aberration have each produced sub-Angstrom images, and...
Twenty-five years ago, the Cowley group at ASU pioneered the use of transmission electron microscopy...
Phase-contrast imaging in the high-resolution electron micrscope produces images with peaks at atom...
Sub-Angstrom resolution is important for nanotechnology. As researchers design and build artificiall...
Sub-(A) over circle ngstrom transmission electron microscopy has been achieved at the National Cente...
The one-Angstrom microscope (O Angstrom M) project exceeds the 1.7 Angstrom Scherzer resolution of a...
Sub-angstrom resolution is important for nanotechnology. Metal atoms can be routinely imaged in TEM ...
Transmission electron microscopy (TEM) at sub-Angstrom resolution is important for nanotechnology. ...
Transmission electron microscopy (TEM) at sub-Angstrom resolution is important for nanotechnology. I...
The one-Angstrom microscope (OAM) project at the USDOE's National Center for Electron Microscopy has...
We have demonstrated sub-Angstrom TEM to a resolution of 0.78 Angstrom with the one-Angstrom micros...
We have demonstrated sub-Angstrom TEM to a resolution of 0.78 Angstrom with the one-Angstrom microsc...
We have demonstrated sub-Angstrom TEM to a resolution of 0.78 Angstrom with the one-Angstrom micros...
John Cowley and his group at Arizona State University pioneered the use of transmission electron mi...
Phase-contrast imaging in the high-resolution electron microscope produces images with peaks at atom...
Hardware and software correction of spherical aberration have each produced sub-Angstrom images, and...
Twenty-five years ago, the Cowley group at ASU pioneered the use of transmission electron microscopy...
Phase-contrast imaging in the high-resolution electron micrscope produces images with peaks at atom...
Sub-Angstrom resolution is important for nanotechnology. As researchers design and build artificiall...
Sub-(A) over circle ngstrom transmission electron microscopy has been achieved at the National Cente...
The one-Angstrom microscope (O Angstrom M) project exceeds the 1.7 Angstrom Scherzer resolution of a...
Sub-angstrom resolution is important for nanotechnology. Metal atoms can be routinely imaged in TEM ...
Transmission electron microscopy (TEM) at sub-Angstrom resolution is important for nanotechnology. ...
Transmission electron microscopy (TEM) at sub-Angstrom resolution is important for nanotechnology. I...