Research on Water Body Information Extraction and Land Use Status of Nansi Lake Based on high-resolution images

AbstractHigh resolution images, obtained during July 11, 1991 total solar eclipse, allowed us to estimate the degree of solar corona polarization in the light of FeXIV 530.3 nm emission line and in the white light, as well. Very preliminary analysis reveals remarkable differences in the degree of polarization for both sets of data, particularly as for level of polarization and its distribution around the Sun’s limb.

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Remarks on the application of backscattered electron imaging (BEI) to the scanning electron microscopy (SEM) of biological structures

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100076159 ◽

1983 ◽

Vol 41 ◽

pp. 484-487

Author(s):

Etienne de Harven

Keyword(s):

High Resolution ◽

Incident Beam ◽

Spot Size ◽

Primary Electron ◽

Critical Point Drying ◽

Cell Shapes ◽

High Resolution Images ◽

Backscattered Electron ◽

Electron Imaging ◽

Scanning Electron

Biological ultrastructures have been extensively studied with the scanning electron microscope (SEM) for the past 12 years mainly because this instrument offers accurate and reproducible high resolution images of cell shapes, provided the cells are dried in ways which will spare them the damage which would be caused by air drying. This can be achieved by several techniques among which the critical point drying technique of T. Anderson has been, by far, the most reproducibly successful. Many biologists, however, have been interpreting SEM micrographs in terms of an exclusive secondary electron imaging (SEI) process in which the resolution is primarily limited by the spot size of the primary incident beam. in fact, this is not the case since it appears that high resolution, even on uncoated samples, is probably compromised by the emission of secondary electrons of much more complex origin.When an incident primary electron beam interacts with the surface of most biological samples, a large percentage of the electrons penetrate below the surface of the exposed cells.

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Field Emission SEM Equipped With Noise Compensator

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100071958 ◽

1973 ◽

Vol 31 ◽

pp. 302-303

Author(s):

S. Saito ◽

H. Todokoro ◽

S. Nomura ◽

T. Komoda

Keyword(s):

Electron Microscope ◽

High Resolution ◽

Scanning Electron Microscope ◽

Field Emission ◽

Low Contrast ◽

Probe Current ◽

High Resolution Images ◽

Scanning Electron

Field emission scanning electron microscope (FESEM) features extremely high resolution images, and offers many valuable information. But, for a specimen which gives low contrast images, lateral stripes appear in images. These stripes are resulted from signal fluctuations caused by probe current noises. In order to obtain good images without stripes, the fluctuations should be less than 1%, especially for low contrast images. For this purpose, the authors realized a noise compensator, and applied this to the FESEM.Fig. 1 shows an outline of FESEM equipped with a noise compensator. Two apertures are provided gust under the field emission gun.

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