SU840710A1 - Device for investigating material optical properties - Google Patents

Description

The invention relates to measuring technique of the chemical and microbiological industry, and more particularly to devices for studying the optical properties of materials, in particular bacterial aerosols in the infrared region of the spectrum with a prism of impaired total internal reflection of the ATR.

Known devices for studying the optical properties of materials, ¹ in which the test substance is placed between two elements - carrying the object and pressing it, and the elements are located between the radiation source and the recording system [1].

However, this device cannot be used for research in ATR spectroscopy, and the device elements carrying the object and pressing it do not meet the requirements of the ATR technique.

Closest to the proposed technical essence is a device for studying the optical properties of materials in the IR spectral region with an ATR prism, the refractive index of which is greater than or equal to the refractive index of the object [2Q.

The disadvantage of this device is the short life of the prism and the duration of the serial analysis, which is due to the fact that the test substance is applied directly to the surface of the ATR element, and repeated analyzes make it necessary to constantly clean the ATR element. Due to direct contact of the substance with the surface of the element, the range of the studied substances is limited: aqueous solutions, aggressive media. In addition, these elements cannot be used in serial analyzes; their replacement requires a lot of time and manual labor.

The purpose of the invention is to increase the service life of the prism of the ATR prism and to reduce the time for performing serial analyzes. This goal is achieved by the fact that the prism of the ATR is equipped with plane-parallel elements optically connected with it - the carrier - the object and presses it - moreover, the carrier element has a refractive index equal to or slightly greater than the refractive index of the prism material, and a thickness less than the depth of penetration of infrared radiation, and pressing the element has a refractive index equal to or slightly greater than the refractive index of the sample, and a thickness greater than the penetration depth of infrared radiation.

In this case, according to the second embodiment, plane-parallel elements can be made in the form of moving tapes.

Figure 1 schematically shows a device for studying the optical properties of materials, in particular bacterial aerosols; Fig.2 spectrum of bacterial cells.

The device contains a prism 1 of an ATR, which is equipped with plane-parallel elements 2 and 3 optically connected with it - carrying an object and pressing it. The aerosol-bearing member 2 has a refractive index equal to or slightly greater than the refractive index of the prism material and a thickness less than the radiation penetration depth, the pressing element 3 has a refractive index equal to or slightly greater than the refractive index of the sample, and the thickness is greater than the infrared penetration depth .

The device operates as follows.

Electromagnetic radiation from the ATR element passes through the element carrying the sample and enters the aerosol, is reflected from the pressing element having a refractive index equal to or slightly greater than the refractive index of the sample, and a thickness greater than the radiation penetration depth, and, carrying information about the optical properties aerosol, falls into the registration part. The proposed device allows you to use one element of ATRP repeatedly. Using the option of moving tapes allows 10 serial analyzes.

Claims (2)

The invention relates to chemical and microbiological measurement technology, and more specifically to devices for studying the optical properties of materials, in particular bacterial aerosols in the infrared region of the spectrum with a prism of impaired total internal reflection of ATR. Devices are known for studying the optical properties of materials in which the test substance is placed between two elements - carrying the object and pressing it, and the elements are located between the radiation source and the recording system 1 -. However, this device cannot be used to study in the ATR spectroscopy, and the elements of the device carrying the object and pressing it do not meet the requirements of the ATR technique. The closest to the proposed technical essence is a device for studying the optical properties of materials in the infrared region of the spectrum with an ATR prism, the refractive index of which is greater than or equal to the refractive index of an object 2. due to the fact that the test substance is applied directly to the surface of the element of the ATR, and during repeated analyzes it is necessary to continuously clean and FTIR-coagulant, because of direct contact with the surface of the element material is limited to the range of test substances: aqueous solutions, corrosive media. In addition, these elements cannot be used in serial analyzes, their replacement requires a lot of time and manual labor. The purpose of the invention is to increase the service life of an ATRM prism and reduce the time for performing serial analyzes. This goal is achieved by providing an ATRT prism that is optically associated with it elements - carrier - object and pressing it, - and the carrier element is the refractive index equal to or slightly greater than the refractive index of the prism material, and the thickness of the smaller depth penetrated IR radiation, and the pressing element has a refractive index equal to or slightly higher than the refractive index of the sample, and the thickness is greater than the penetration depth of the IR radiation. In this case, according to the second variant, the plane-parallel elements can be made in the form of double strips. Fig. 1 shows schematically a device for studying the optical properties of materials, in particular bacterial aerosols; in Fig.2, the spectrum of bacterial cells. The device contains a prism 1. PNPO which is provided with plane-parallel elements 2 and 3 optically connected with it - carrying the object and pressing it. Element 2 carrying the aerosol has a refractive index equal to or slightly greater than the refractive index of the prism material and thickness less than the depth of penetration of radiation, the pressing element 3 has a refractive index equal to or slightly greater than the refractive index of the sample, and the thickness greater than the penetration depth of infrared radiation . The device works as follows. Electromagnetic radiation from the element of the ATR passes through the element carrying the sample, and enters the aerosol, is reflected from the pressing element, and the refractive index is equal to or slightly greater than 8 4 the sample's refractive index, and the thickness, greater depth of radiation penetration, deposited information about the optical properties aerosol, enters the registered part. The proposed device allows the use of one element of the ATR many times. Using a variant of moving belts allows serial analyzes. Invention Formula). A device for studying the optical properties of materials in the infrared region of the spectrum with an ATR prism, the refractive index of which is greater than or equal to the refractive index of an object, characterized in that, in order to increase service life and shorten the run-time analysis of an ATR prism, it is equipped with optically associated plane-parallel elements carrying the object and pressing it with the bearing element having a refractive index equal to or slightly greater than the refractive index of the material of the prism, and a thickness less than g Ubin permeation of IR-radiation, and the pressing member has a refractive index equal to or somewhat larger refractive index of the sample, and thickness greater than the depth of penetration of the infrared radiation. 2. A device according to claim 1, characterized in that the plane-parallel elements are made in the form of moving belts. Sources of information taken into account in the examination 1. US patent number 2561339, cl. 23-253, 1973. 2. The patent of France No. 2029821, cl. G 01 N 1970 (prototype).