Wei-Qin Li scite author profile

We clarify the scanning electron microscopic contrast mechanism for imaging a buried SiO(2) trench microstructure with interface trapped charges by simulating both electron scattering and transport. Here, the interface trapped charges make the SiO(2) film more negatively charged and increase excess holes in the space charge distribution of the electron scattering region. The generated positive surface electric field thus redistributes some emitted secondary electrons and results in the dark contrast. This contrast mechanism is validated by comparing with experiments, and it may also provide an interesting approach for imaging and detecting deep interface trapped charges in insulating films.

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Wei-Qin Li

The positive charging effect of dielectric films irradiated by a focused electron beam

The surface potential of insulating thin films negatively charged by a low-energy focused electron beam

Self-consistent charging in dielectric films under defocused electron beam irradiation

Contrast mechanism due to interface trapped charges for a buried SiO2 microstructure in scanning electron microscopy

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