Roadmap of scanning probe microscopy by Seizo Morita

By Seizo Morita

Scanning tunneling microscopy has completed notable growth and develop into the most important expertise for floor technology. This booklet predicts the long run improvement for all of scanning probe microscopy (SPM). Such forecasts may also help to figure out the path finally taken and should speed up examine and improvement on nanotechnology and nanoscience, in addition to all in SPM-related fields within the future.

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Roadmap of scanning probe microscopy

Scanning tunneling microscopy has accomplished amazing development and turn into the most important know-how for floor technology. This booklet predicts the longer term improvement for all of scanning probe microscopy (SPM). Such forecasts might help to figure out the path finally taken and should speed up examine and improvement on nanotechnology and nanoscience, in addition to all in SPM-related fields sooner or later.

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Since electrostatic force is proportional to square of voltage, the vibration contains DC, ωm and 2ωm components. The DC component is a static attractive force between the electrodes composing the capacitor, the ωm component is a force to the previously described charges by the AC electric field, and the 2ωm component is a force induced to the capacitors only by the AC voltage. , VS + VDC = 0. Surface potential or CPD can be therefore quantitatively measured by the feedback control of VDC to maintain the ωm component to be zero.

Yamada voltage applied to the probe is not in resonant.

By minimizing a THz light source, high spatial resolution beyond the diffraction limit is directly obtained without using any kind of probe to localize illumination light. Development of efficient and monochromatic light source and high sensitive detection method will push forward a substantial progress in THz NSOM. 4 Nanoscale Light–Matter Interaction An electron in a nanoscale confined system or in a regularly arranged molecule system exhibits a quantized energy level structure and the state is described by a wave function extended over the whole system.

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