SU1193540A1 - Absorption system for analytical ultra centrifuge - Google Patents

Description

The invention relates to devices that allow to determine the quantitative composition of the test substance, which is divided in the cell of an analytical ultracentrifuge by registering the distribution of optical density, and can be used in the field of medicine, biology, biophysics and polymer chemistry.

The purpose of the invention is to improve the accuracy and sensitivity of measurements,

Figure 1 shows an absorption system for an analytical ultracentrifuge; FIG. 2 is a section A-A in FIG. 1. 15

Absorption system for analytical ultracentrifuge consists of a radiation source 1 (monochromator) with an output slit 2, mirror 3, collimator objective 4, mirror 20 5, scanning device 6 consisting of mirror 7 and additional collimator objective 8, glasses 9, cell 10 installed in the body of the cuvette 11, having sectors ²⁵ 12 and 1.3 for the reference and test substances, respectively. The cuvette 11 is placed in the rotor 14. A cylindrical lens 15, a mirror 16, a cylindrical lens 17, 30 are located behind the rotor 14

the slit 18 and the photosensitive element 19. The rotor 14 is installed in the chamber 20.

Absorption system for analytical ultracentrifuge works as follows. 35

The output slit 2 of the radiation source 1 (monochromator) is aligned with the front focal plane of the collimator lens 4. A parallel beam of rays formed by the collimator lens 4 falls on an additional collimator lens 8, creating a converging beam of rays that provides the image of the output slit 2 of source 1 45 radiation in the center of the cell 10 of the cuvette 11. This beam, together with the mirror 7, performs scanning along the radius of rotation of the rotor 14 located

in chamber 20., Reference (buffer) and

test substance placed in

sectors 12 and 13 of the cuvette 11, create,

respectively, the reference and measure *

telny light streams.

The image of the output slit 2 of the monochromator 1 has a rectangular shape and simultaneously overlaps both sectors 12 and 13 of cell 10 of cell 11. For spatial separation and alternate registration of light rays from sectors 12 and 13, slit 18 and two cylindrical lenses 15 and 17 are placed in front of the photosensitive element 19, the generators of which are mutually perpendicular. The arrangement of cylindrical lenses 15 and 17 in the optical system is such that the increase along the radius of rotation of the rotor 14 is equal to 1 ^, and the increase tangential to the radius of rotation of the rotor 14 is equal to 2.5 *.

Thus, the distance between the light signals from the sectors 12 and 13 of the cell 10 of the cuvette 11 increases.

Light fluxes from sectors 12 and 13, one of which is the reference, and the other changes its intensity depending on the distribution (particle concentration) of the test substance, are separately recorded by the photosensitive element 19 and are compared between each other by an electronic system (not shown) that is associated with photosensitive element 19.

Depending on the change in the intensity of the signal from sector 13 with the test substance and the result of comparing it with the signal from sector 12 with the reference substance (buffer), the distribution of optical density in sector 13 and its quantitative assessment are obtained. The data obtained are used to determine the quantitative composition of the test substance by known formulas or by computer.

1193540

.η

π .Λ_ί9

Φ (Ι9.1

1193540

ll

14

eleven

13

12

Claims (1)

ABSORPTION SYSTEM FOR ANALYTICAL ULTRACENTRIFUGU, containing a radiation source installed in series along the radiation path, the output slit of which is located the wife in the front focal plane of the collimator lens; the camera in which the rotor with the cuvette is placed; the generators of which are mutually perpendicular, located between the camera and the photosensitive element, and the second cylindrical lens in the course of the radiation has an increase not _with more than 1, and the additional lens © is rigidly connected with the scanning device and its back focal plane is aligned with the center of the cuvette. 511 „1193540 > 1 1193540 *