Electron microscopy, scanning probe, and optical super-resolution imaging techniques with nanometric resolution are now routinely available but cannot capture the characteristically fast (MHz–GHz frequency) movements of micro-/nano-objects. Meanwhile, optical interferometric techniques can detect high-frequency picometric displacements but only with diffraction-limited lateral resolution. Here, we introduce a motion visualization technique, based on the spectrally resolved detection of secondary electron emission from moving objects, that combines picometric displacement sensitivity with the nanometric spatial (positional/imaging) resolution of electron microscopy. The sensitivity of the technique is quantitatively validated against the the...
Direct electron imaging with sufficient time resolution is a powerful tool for visualizing the three...
We apply an interpolation-based edge-tracking algorithm to measure nanoscale displacements of microd...
By integrating a direct electron detector with ultrafast electron microscopy and controlling the qua...
Nanoscale objects move fast and oscillate billions of times per second. Such movements occur natural...
The motion of nanostructures can be measured with picometric resolution using scattering of free ele...
There is growing interest and technological opportunity in nanomechanics and the fundamentals of nan...
Here, we demonstrate ultrafast scanning electron microscopy (SEM) for making ultrafast movies of mec...
The function of many nano- and microscale systems is revealed when they are visualized in both space...
Despite recent tremendous progress in optical imaging and metrology,there remains a substantial reso...
Nanomusical systems, nanoharp and nanopiano, fabricated as arrays of cantilevers by focused ion beam...
An understanding of nanoscale energy transport and acoustic response is important for applications o...
We investigate theoretically how single molecule spectroscopy techniques can be used to perform fast...
Although the human visual system is remarkable at perceiving and interpreting motions, it has limite...
Flexural oscillations of freestanding films, nanomembranes, and nanowires are attracting growing att...
Flexural oscillations of free-standing films, nano-membranes and nano-wires are attracting growing a...
Direct electron imaging with sufficient time resolution is a powerful tool for visualizing the three...
We apply an interpolation-based edge-tracking algorithm to measure nanoscale displacements of microd...
By integrating a direct electron detector with ultrafast electron microscopy and controlling the qua...
Nanoscale objects move fast and oscillate billions of times per second. Such movements occur natural...
The motion of nanostructures can be measured with picometric resolution using scattering of free ele...
There is growing interest and technological opportunity in nanomechanics and the fundamentals of nan...
Here, we demonstrate ultrafast scanning electron microscopy (SEM) for making ultrafast movies of mec...
The function of many nano- and microscale systems is revealed when they are visualized in both space...
Despite recent tremendous progress in optical imaging and metrology,there remains a substantial reso...
Nanomusical systems, nanoharp and nanopiano, fabricated as arrays of cantilevers by focused ion beam...
An understanding of nanoscale energy transport and acoustic response is important for applications o...
We investigate theoretically how single molecule spectroscopy techniques can be used to perform fast...
Although the human visual system is remarkable at perceiving and interpreting motions, it has limite...
Flexural oscillations of freestanding films, nanomembranes, and nanowires are attracting growing att...
Flexural oscillations of free-standing films, nano-membranes and nano-wires are attracting growing a...
Direct electron imaging with sufficient time resolution is a powerful tool for visualizing the three...
We apply an interpolation-based edge-tracking algorithm to measure nanoscale displacements of microd...
By integrating a direct electron detector with ultrafast electron microscopy and controlling the qua...