FA engineers are expected to produce accurate results. Thus, there is no room for error when it comes to the data provided by instruments. Due to its data precision ...

The Scanning Microwave Microscope (SMM) merges the nanoscale imaging capabilities of an atomic force microscope (AFM) with the high-frequency broadband (from MHz to GHz) impedance measurement accuracy ...

What is Scanning Microwave Microscopy? Scanning microwave microscopy (SMM) is a powerful imaging technique that combines the principles of atomic force microscopy (AFM) and microwave technology to ...

In recent decades, there has been an increased desire to miniaturize electronics, which, in turn, has enhanced the demand for nano-electrical characterization methods. It is crucial that an ...

In the sMIM approach, a microwave signal reflected from the interface between the tip and the sample retains information of the electrodynamic characteristics of the sample surface beneath the tip ...

June 27, 2012. Agilent Technologies Inc. has announced the availability of scanning microwave microscopy (SMM) capabilities for atomic force microscope, the 5500 AFM. scanning, microwave, microscopy, ...

Researchers have demonstrated a nondestructive way to observe nanoscale objects and processes in conditions simulating their normal operating environments. Their novel approach combines ultrathin ...

(Nanowerk News) When lots of energy hits an atom, it can knock off electrons, making the atom extremely chemically reactive and initiating further destruction. That's why radiation is so dangerous. It ...

There has been so much talk about lithography effects in metal on advanced processes that any time we hear terms such as OPC or sub-wavelength, we see images of pinched-off metal-1 traces. But the ...

Microwave microscopy, in contrast, unambiguously distinguished insulators from conductors. Next, the researchers needed to know that observation with sMIM would not introduce artifacts, such as silver ...

When lots of energy hits an atom, it can knock off electrons, making the atom extremely chemically reactive and initiating further destruction. That's why radiation is so dangerous. It's also why high ...