论文信息 - Development of dedicated STEM with high stability.

Development of dedicated STEM with high stability.

We developed a dedicated scanning transmission electron microscope with high-stability. The mechanical and electronic stabilities of the microscope were substantially improved, e.g. the specimen drift rate was found to be <0.2 nm min(-1). The Fourier transform of an ADF image showed spots of 0.105 nm at an acceleration voltage of 200 kV without spherical aberration corrector. The stabilized STEM instrument allows us to acquire distortion-free STEM images and high-signal to noise ratio analyses. We have shown the outline of the instrument and preliminary results.

[1] L. A. Boatner,et al. Chemically sensitive structure-imaging with a scanning transmission electron microscope , 1988, Nature.

[2] Kazuo Ishizuka,et al. The study of Al-L23 ELNES with resolution-enhancement software and first-principles calculation. , 2003, Journal of electron microscopy.

[3] Kazuo Ishizuka,et al. 0.23 eV energy resolution obtained using a cold field-emission gun and a streak imaging technique. , 2005, Micron.

[4] K. Kimoto,et al. Software techniques for EELS to realize about 0.3 eV energy resolution using 300 kV FEG‐TEM , 2002, Journal of microscopy.

[5] D. Muller,et al. Optimizing the environment for sub-0.2 nm scanning transmission electron microscopy. , 2001, Journal of electron microscopy.