![]() ![]() In the diffraction mode, β is determined by the camera length. α and β calculation by considering entrance aperture of GIF camera. The smaller of selected area and objective apertureįigure 4938b. Magnification of the image in the back focal plane of the If a small objective aperture is inserted, it may limit β as indicated in Table 4938 the effective value of β at the backįocal plane of the projector lens is β/M where M is the Table 4938 shows how to determine α and β by the apertures in the STEM and TEM. In TEM systems, one has further to distinguish between image mode (image on fluorescent screen) and diffraction mode (diffraction pattern on fluorescent screen). Lenses the situation is more complicated because the postspecimen lenses have the property of changing beam angles. In TEM and in normal STEM systems with postspecimen Therefore, the collection angles of the detector can be varied simply by changing the effective camera length. This zoom-in and zoom-out process are then converted to the correpsonding camera lengths on the commercial microscopes. However, instead of moving the detectors up and down to select and record the intensities of the transmitted and/or different diffracted beams, we can conveniently change the lens currents to zoom in (magnify) or zoom out (demagnify) the diffraction pattern on the detectors. Relationship between the reciprocal lattice spacing R hkl and the camera length L for diffraction in a TEM. The vacuum column does not such a wide room to move the detectors.įigure 4938a. Ii) The proper camera lengths for different applications can be from cm to 30 m. I) It is not convenient to mechanically move the detectors up and down in a vacuum condition. However, a couple of reasons make the detector movement impossible, for instance: Therefore, in principle, it is easy to understand that the transmitted electrons or different diffracted beams can be collected by moving the detectors (screen) down or up, as shown in Figure 4938a, which corresponds to the change of the camera length. We know that the sizes of the BF- and DF-detectors are fixed. ![]()
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