DE1081689B - Compensation device for an interferometer - Google Patents

Description

Comp ens ationsvorrichtung for an interferometer The invention relates a compensation device for an interferometer, whose gait compensator off two mutually adjustable plane-parallel glass plates that either (after am in) both are rotatable or of which (after Löwe) only one is rotatable, with this gear compensator to eliminate chromatic shifts Dispersion compensator made of plane-parallel glass plates is assigned.

With the previously known devices, the range was achievable Achromaticity very limited, so that the masie for a number of substances for axis required dispersion values of the compensator far outside this range lay. Another disadvantage with a four-plate dispersion compensator was difficult to manufacture because two of these plates were made of different ones Glass melts with exactly the same mean refractive index, but very different Dispersions need to be made.

There are also combined gait and dispersion compensators with total only four plates be known, the disadvantages of which are that after each new setting of the dispersion value at the compensator also a recalibration of the interferometer for the path difference is required.

According to the present invention, these disadvantages are overcome by a compensation device A much simpler type of eliminating the fact that the dispersion compensator is off consists of two identical plane-parallel glass plates, which are immersed in an immersion liquid immerse with the same average refractive index and mutually adjustable and are adjustable in a certain angular position to the beam path, with at least one of them can be coupled to the gear compensator in such a way that it can be used when making adjustments the same experiences a rotation.

In the drawing is a dispersion compensator designed according to the invention shown in one embodiment.

Fig. 1 is a section showing the axis of rotation of the glass flakes; FIG. 2 is a section perpendicular to this axis of rotation along that shown in FIG Section line 2-2 as seen in the direction of the arrow and Fig. 3 is a partial view in plan.

On a frame 1, which by means of several support surfaces 2 on one with an immersion liquid to be filled cuvette 3 can be placed on the one hand by means of a pin 4 rotatable about an axis X-X, the carrier 5 of a plane-parallel Glass plate 6 and on the other hand by means of a pin rotatable about the same axis 7, the carrier 8 of the same glass plate 9 is rotatably mounted. The two glass plates have the same refractive index as the immersion liquid. Around the pin 4 An arm 10 is loosely rotatably mounted, which is connected to the carrier 8 by a threaded piece 11 one mounted on the carrier 8 rotatably about an axis parallel to the axis X-X Pin 12 is firmly connected. The threaded piece 11 passes through one to the axis X-X coaxial annular slot 13 of the support 5, so that mutual rotations of the two carriers 5 and 8 around the axis X-X are possible. By turning a handle 14 can be given to the pin 12 a rotation of 1800 about its axis, whereby the pin from a position in which the two supports 5 and 8 with the glass plates 6 and 9 are freely rotatable against each other, can be brought into a position, in which the two carriers are clamped together. To turn the carrier 8 over the axis X-X serves a rod 15 which is articulated to a rod 16, which is to be thought of coupled with a gear compensator for the same rotation. By an adjusting screw 18 which is provided with a head 17 and acts on the pin 7 the linkage 15, 16 to be driven by the gear compensator is coupled to the pin 7 will. By means of an adjusting screw 20 provided with a head 19, the pin 4 relative to the frame 1 are determined, whereby the carrier 5 with the Glass plate 6 is prevented from rotating about the axis X-X. An essay 21 of the frame 1 is provided with a cylindrical surface 22 coaxial with the axis X-X, on which an angular position 23 is applied. This division forms one link a display device, the other member of which is a pointer 24, which is one with the Support 5 screwed part 25 belongs. By means of a clamping screw 26 this can Part 25 to be clamped to the attachment 21.

The preparation of an immersion liquid of the same average Refractive index does not cause any difficulties. Although in the new literature too the opinion is held that there is no compensator, which always the achromatic condition fulfilled, it is possible with this dispersion compensator, the dispersion value of all to discontinue practically possible substances. The scope for The achromatic setting has thus been increased considerably as a result.

Claims (1)

PATENT CLAIM: Compensation device for an interferometer, whose gait compensator consists of two opposing mutually adjustable plane-parallel glass plates a dispersion compensator made of plane-parallel glass plates to eliminate assigned chromatic shifts, characterized in that the dispersion compensator consists of two identical plane-parallel glass plates, which are immersed in an immersion liquid immerse with the same average refractive index and mutually adjustable and are adjustable in a certain angular position to the beam path, with at least one of them can be coupled to the gear compensator in such a way that it can be used when making adjustments the same experiences a rotation. Considered publications: German Patent Specifications No. 631822, 632769.