RU2059274C1 - Controlled light filter on the base of photochrome material - Google Patents

Abstract

FIELD: optics. SUBSTANCE: there is a polymeric component in the composition of photochrome material, which component includes molecules with ferromagnetic properties. Under effect of magnetic field sorce, which field interacts with ferromagnetic part of polymer molecul, configuration of polymer molecule changes. This polymer changes the capability of bonding decay products, being formed at decomposition of light-sensitive component, and equilibrum of the reaction may be shifted either to one or the other side. EFFECT: improved efficiency of control. 1 dwg

Description

 The invention relates to optics, and in particular to light filter devices that change their optical characteristics when their molecular composition changes under the influence of electromagnetic radiation.

 Existing photosensitive devices, such as photochromic materials, are a mixture of various substances in which there is a photosensitive component, for example AgCl silver chloride (ed. St. USSR N 484194, class C 03 C 3/12, 3/26; ed. USSR N 724465, class C 03 C 3/26, 3/30).

2 Ag +Cl₂
Данная реакция является обратимой и при прекращении воздействия электромагнитного излучения равновесие реакции сдвигается влево в сторону образования хлорида серебра, и материал становится прозрачным.When exposed to light, the photosensitive material decomposes with the release of free silver, which causes the dimming effect:
2AgCl

2 Ag + Cl ₂
This reaction is reversible and when the exposure to electromagnetic radiation ceases, the equilibrium of the reaction shifts to the left towards the formation of silver chloride, and the material becomes transparent.

 The disadvantage of this type of device is the linear dependence of the decomposition rate on the radiation intensity.

 The invention allows to obtain a different photochromic effect with the same characteristics of the light flux.

 The closest is a device that contains a photochromic filter that changes its optical characteristics under the influence of mechanical loads.

 The technical result of the invention is the ability to change the optical properties of the filter under the influence of a magnetic field.

 The technical result is achieved in that in a device containing an optical element based on a photochromic material and a control source, the photochromic material contains molecules having ferromagnetic properties, and the control source on the optical element is made in the form of a magnetic field source with the possibility of changing magnetic field parameters.

 The invention is illustrated in the drawing.

 In the proposed device, as part of the photochromic material 1, there is a polymer component containing molecules having ferromagnetic properties (Young Technician, N 11, 1989, p. 10). When exposed to an external source of magnetic field 2, which interacts with the ferromagnetic part of the polymer molecule, the configuration of the polymer molecules changes and the polymer changes the ability to bind the decomposition products formed during the decomposition of the photosensitive component, i.e. shifts the reaction equilibrium in one direction or another.

 This device can also be used in various photographic films to change the degree of sensitivity of photographic films, photo papers, etc.

 The effect of changing the ability to bind metals and other substances when changing the configuration of molecules is widely known in proteins (biopolymers).

 A magnetically containing polymer molecule can bind not only the direct decomposition product, but also the associated silver chloride molecule, as well as any other substance (even non-photosensitive), the concentration of which causes a change in the rate of direct or reverse reaction.

Claims (1)

 CONTROLLED LIGHT FILTER BASED ON PHOTOCHROME MATERIAL, containing an optical element based on a photochromic material and a source of control action on the optical element, characterized in that the photochromic material contains molecules having ferromagnetic properties, and the control source on the optical element is made in the form of a magnetic field source with the possibility of changes in the parameters of the magnetic field.

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