Add to ORKGWe describe xperimental problems arising with the continuous observation of nanostructure dynamics by STM. We discuss the necessity to use a high-speed STM, possibilities to deal with the thermal drift, and tests to rule out the influence of the scanning process on the observation
The design and performance of a fast-scanning, low- and variable-temperature, scanning tunneling mic...
As the size of materials, particles, and devices shrinks to nanometer, atomic, or even quantum scale...
La caractérisation thermique est cruciale pour la conception et le développement d'applications crit...
We describe experimental problems arising with the continuous observation of nanostructure dynamics ...
By means of STM measurements and fully self-consistent transport calculations we analyze how STM tr...
Applications in nanotechnology require the use of tools that can help visualize and manipulate struc...
The mechanism of nanostructuring by illumination of scanning probe tips is examined. For that purpos...
The mechanism of nanostructuring by illumination of scanning probe tips is examined. For that purpos...
The ability to directly image ultrafast phenomena with nanometer spatial resolution is essential to ...
<p>Importantly resolution decreases the dots present in (a) merge into continuous lines in (b). Repr...
The performance of many advanced materials is determined by the arrangement of their nanostructure w...
Many deductions made about STM images are based upon the model of Tersoff and Hamann, in which image...
A Scanning Tunneling Microscope (STM) is a very useful tool in Physics and Material Science with its...
Since its development in 1981, Scanning Tunneling Microscopy (STM) has become a premier technology i...
Scanning tunneling microscopy (STM) is an excellent technique to image the surfaces of materials wit...
The design and performance of a fast-scanning, low- and variable-temperature, scanning tunneling mic...
As the size of materials, particles, and devices shrinks to nanometer, atomic, or even quantum scale...
La caractérisation thermique est cruciale pour la conception et le développement d'applications crit...
We describe experimental problems arising with the continuous observation of nanostructure dynamics ...
By means of STM measurements and fully self-consistent transport calculations we analyze how STM tr...
Applications in nanotechnology require the use of tools that can help visualize and manipulate struc...
The mechanism of nanostructuring by illumination of scanning probe tips is examined. For that purpos...
The mechanism of nanostructuring by illumination of scanning probe tips is examined. For that purpos...
The ability to directly image ultrafast phenomena with nanometer spatial resolution is essential to ...
<p>Importantly resolution decreases the dots present in (a) merge into continuous lines in (b). Repr...
The performance of many advanced materials is determined by the arrangement of their nanostructure w...
Many deductions made about STM images are based upon the model of Tersoff and Hamann, in which image...
A Scanning Tunneling Microscope (STM) is a very useful tool in Physics and Material Science with its...
Since its development in 1981, Scanning Tunneling Microscopy (STM) has become a premier technology i...
Scanning tunneling microscopy (STM) is an excellent technique to image the surfaces of materials wit...
The design and performance of a fast-scanning, low- and variable-temperature, scanning tunneling mic...
As the size of materials, particles, and devices shrinks to nanometer, atomic, or even quantum scale...
La caractérisation thermique est cruciale pour la conception et le développement d'applications crit...