Morning Overview on MSN

Atoms are 0.1 nm across, and it took 60 years to finally see them clearly

Atoms measure roughly 0.1 nanometers across, a scale so small that scientists spent more than six decades developing ...

Seeing how atoms vibrate at the ångström scale

Probing the vibration of atoms provides detailed information on local structure and bonding that define material properties.
Interesting Engineering on MSN

Quantum simulations show vibrating atoms can appear active without moving at all

Scientists in Germany have shed light on how nanoscale imaging techniques like tip-enhanced Raman ...
Nanowerk

Seeing how atoms vibrate at the Angstrom scale

New first-principles simulations reveal how metallic surfaces reshape nanoscale vibrational imaging, advancing the interpretation of tip-enhanced Raman spectroscopy. (Nanowerk News) Probing the ...

A protocol to realize near-perfect atom-photon entanglement

Quantum technologies, devices and systems that operate leveraging quantum mechanical effects, could tackle some tasks more ...
Semiconductor Engineering

3D Atomic-Scale Metrology of Strain Relaxation And Roughness in GAAFETs Via Electron Ptychography (Cornell, ASM, TSMC)

A new technical paper, “3D atomic-scale metrology of strain relaxation and roughness in Gate-All-Around transistors via electron ptychography,” was published by researchers at Cornell University, ASM ...
idw

Seeing How Atoms Vibrate at the Angstrom Scale

Probing the vibration of atoms provides detailed information on local structure and bonding that define material properties. Tip-enhanced Raman spectroscopy (TERS) offers extremely high resolution to ...