SU737981A1 - Enducational appliance for demonstrating diffraction nature of images in microscope - Google Patents

Description

The invention relates to educational devices for the demonstration of optical. in the course of general physics and can be used in schools, workers and universities when reading lecture courses. .. A device is known for demonstrating the course of beams in a microscope, containing bench-mounted raters with aep tic rods, an object model, an object and a screen located on a stand mounted on the rods. perpendicular to the optical axis of the lens and the ocular tH. The known device does not provide sufficient clues to demonstrate the nature of the diffraction phenomenon. In the proposed training device for enhancing the visibility of the diffraction nature of the image in the microscope, it has an additional rider mounted on a bench, an associated arm with a rotating holder and an optical slit fixed in the holder in the focal plane of the lens, and One rod with it is installed from the kidna lens, while the bracket is located between the object and the oculum. FIG. 1 shows the proposed device, a general view; in fig. 2 - given the type of object on which the light diffracts; in fig. 3 optical target is preset; in fig. 4 shows the section A-L in FIG. 1. The device contains a bench I with guides 2, on which reinforcers З-б are fixed with screws 7-10 and pipes 11-15, in which they can be crossed and fixed by means of screws i 15-18 with washers 19-22 rods 23-26 on which object 27, lens 28, optical slit bracket 29, folding lens 30 and eye 31 are fixed, respectively. The tubes have grooves 32-35. The object is a banner with transparent strips 36, which is fastened in the casing 38 by means of the nut 37. Reuters has grooves 39 and 40dl of its installation on the guides. The optical slit consists of a body 41 with knives 42, the distance between the co-; the torch is adjusted by a screw 43. Reiter slots have guides 44 and 45 with protrusions 46-48 with springs 49 and screw 50, thus creating the opportunity for the slit to move smoothly in a direction perpendicular to the guides

benches. In this case, the slot body can rotate around the axis of the hollow bracket.

The tilt lens and the eyepiece are fixed on the common platform 51 with the brackets 52 and with the axis 53 of the turn of the flare lens. The training device works as follows.

By means of screws 16 and 18 fix the lens 28 and the ocular p 31 with a flap lens 30 In position, in line with their main optical axes. The screw 17 fixes the slit in the position in which the axis of the hollow korshdane 29 is aligned with the optical axis of the microscope, and the screw 15 fixes the object in a position in which the axis of the microscope crosses the object. :

Light from the laser is sent to the optical axis in the direction of the object, indicated by an arrow in fig.D. On the opposite side of the device, a screen is arranged perpendicular to the axis of the device (screen not shown). Screw 7 strengthens the object 27, and the lens 28 and: the eye of the p 31 with the hinge removed. The lens 30 is fixed with screws 8 and 10 on the guides 2 in such a position that an enlarged geometric image of the object 21 appears on the screen, that is, dark and light stripes. Screw 9 fix optically. This slot, so that the plane of the knives 42 coincides with the focal plane of the lens 28. In the same plane there are also the main diffraction peaks formed due to the diffraction of light on the object. When a hinged lens 30 is inserted into the beam, a diffraction pattern is visible on the screen, the lens 28 is visible in the focal plane, with the lens 30 drawn out - a geometrical image of the object.

If you set the gap so that it passes only the central maximum.

and all lateral maxima were decelerated, then in this case light will pass through the system, which has not undergone deviations on the object and, it seems, the donor, but does not carry information about the object. Therefore, with the lens 30 removed, a uniformly illuminated spot appears on the screen. Spreading the knives 42, it is observed that as an increasing number of lateral peaks are passed, a fuzzy magnified image of the object first appears on the screen, and then the sharpness and brightness of the image increase.

Thus, this device makes it possible to demonstrate with great consistency the image on the screen on the number of maxima of the diffraction pattern involved in the formation of this image.

Claims (1)

1. Microscopes. Ed. NI Polkova, L., Mashinostroenie, 1969, p. 30.27 Direction matchmaker 23 mn FIG. one 3 42, tffl 3 t - Fig.Z L ±, s3 SI