DD282984B5 - monochromator - Google Patents

Abstract

To generate a reference radiation, the exit slit (4) has a further slit (5) of fixed or variable slit width next to it at least on one side in the direction of diffraction. As a result, it is ensured that the intensity of the reference radiation under intensity fluctuations of the light flux emanating from the radiation source (1) changes to a great extent in linear proportion to the intensity of the measuring radiation, without losses occurring in the measuring beam. <IMAGE>

Description

Slit width is fixed or changeable, enters a Reforenzstrahlung with a deviating only slightly from the measuring radiation wavelength from the monochromator. From here it can be fed directly or via imaging 6 and / or photoconductive optical elements 7 a radiation receiver 8, which is required in addition to a radiation receiver 9 for the measuring radiation.

In the monochromator shown in FIG. 2, the exit gap 4 is adjoined by a further gap 5a a's reference gap, downstream of which are the imaging 6a and / or the light-conducting elements 7a.

The advantageous application of only one radiation receiver can be realized in a known manner if, by means of an additionally arranged chopper and suitable beam guidance, reference and measuring radiation are alternating nterbrochon and thus meet the radiation receiver alternately.

Claims (2)

'I. Monochromator, consisting of entrance? palt, imaging dispersive optical element and exit slit and means for generating and continuing a Roferenzstrahlung, characterized in that for generating the reference radiation to the exit slit at least on one side in the diffraction direction another gap is immediately adjacent. 2. monochromator according to claim 1, characterized in that the exit slit on both sides in the diffraction direction each have a gap directly neighbait. For this 1 page drawings Field of application of the invention The invention relates to a monochromator, as it finds application in photometry. Characteristic of the known state of the art In order to meet high stability requirements with regard to the drift behavior of photometers, which is determined and impaired by changes in the luminous flux of the photometer lamp and instabilities in the electronic processing circuit for the measuring signal, arrangements are known with which any drift phenomena occurring when using a reference beam are compensated. Optical arrangements in which the reference receiver is illuminated directly by the radiation source have the disadvantage that integrally measured fluctuations of the luminous flux emanating from the radiation source are not linearly proportional to the fluctuations of the monochromatic luminous flux emerging from the monochromator. Other known optical solutions, boi where the reference luminous flux is derived by a arranged behind the monochromator in the monochromatic beam path beam splitting element, leading to a loss of radiation power of the measuring beam. For example, in GB 2013362 A a beam splitter is provided in the monochromator in conjunction with an additional receiver for generating a reference radiation, which also leads to the measurement of distorting stray light. Object of the invention The aim of the invention is to improve the stability properties with regard to the drift behavior of photometers. Explanation of the essence of the invention The object of the invention is to produce a reference radiation whose Intensitätsich changes in intensity fluctuations of the outgoing radiation from the radiation source largely linearly proportional to the intensity of Moß radiation and can be adapted to the task without losses in the measuring beam occur. According to the invention the object is achieved by a monochromator, which consists of entrance slit, imaging dispersive optical element and exit slit and means for generating and continuing a reference radiation by the output slit at least on one side in the diffraction direction another gap is immediately adjacent to the generation of the reference radiation. As a result, it can be ensured ainmal that the limits of the measuring range, as far as they are determined by the radiation power, are independent of the position of a reference gap. On the other hand, a simultaneous refinement of the linear proportionality between the radiation power of the measuring radiation and the reference radiation can be brought about by simultaneous averaging of the two reference signals. embodiment The invention will be explained in more detail below with reference to the schematic drawing. Show it 1: a monochromator with a reference gap adjacent to the exit slit on one side; FIG. 2: a monochromator with reference slits adjacent to the exit slit on both sides; An entrance slit 2 illuminated by a radiation source 1 is imaged onto an exit slit 4 with an imaging grating 3 as a dispersive optical element. As a result of the dispersion effect of the grating 3 arises when using a continuum radiator at the location of the exit slit 4, a continuous spectrum, of which a blanked part serves as a monochromatic measuring radiation. By lying close to the exit slit 4 reference gap 5, whose