SU1674038A1 - Band-pass reflecting polaroid filter - Google Patents

Abstract

This invention relates to optical instrumentation, in particular to interference optical optical filters. The optical filter is a triangular isosceles prism 1 with an interference reflective coating 2 applied on its equal faces. The reflective interference coating 2 is a system of alternating transparent and translucent layers satisfying the 2NDCOS (β / 2) = λ ratio, where N is an indicator refraction of transparent layers

D - their thickness

λ is the wavelength of the filtered light

β is the angle between equal faces of the prism. The presence of two reflecting surfaces leads to the equivalence of the reflection conditions on both surfaces, which makes it possible to increase the accuracy of selection of the filtered light 4 not only by the wavelength, but also by the angle of incidence. The device can thus work in uncollimated light. 1 il.

Description

The invention relates to optical instrumentation, in particular to interference optical filters.

’The aim of the invention is to increase the accuracy of selection of a given wavelength and angle of incidence of reflected light.

The drawing shows a diagram of a reflective interference filter.

The diagram shows a prism 1 of glass, 10 quartz, or another transparent material; system of 2 transparent and translucent equidistant layers; incident beam 3 of white light; output beam 4 of monochromatic light; monochromatic ray 5, which was reflected from only one system of layers; φι is the angle of incidence of light on the filter; φζ is the angle of exit of light from the filter; ι / Д, ipz ~ angles of refraction; β angle between equal faces of the prism; 20 αι, “2 — angles of incidence of light on the 1st and 2nd reflective interference coatings.

When the light ray 3 falls on the face of the AS of prism 1, the light is refracted, passes through the prism, and falls on the 1st coating at an angle αι. Rays reflected from the system of translucent layers interfere, as a result of which at the same angle from ray 1 the beam 5 is reflected, having a wavelength of 30 Αι, equal to the difference in the path of the rays reflected from neighboring translucent layers (main interference maximum):

Λι, = 2dncos αι. (1)

Light with a wavelength Λ · | (beam 5) falls on the second system of layers, for which the condition of maximum interference is valid:

Ar = 2 d ncos conv. (2)

Ray 5 is reflected only if Αι ~ λζ ~ ^: λ, which is possible only if the angles ot = 2 2 = равен are equal (relation (1) and (2)). With isosceles of the CBA prism, this leads to the equality of angles V> 1 = V & ~ ψο; φ \ = (p2 - ^ Considering the ^ g triangles formed by the rays and faces of the prism, we get a = / 3/2, (3)

Vb =) 5-90 °. (4)

From relation (4) and the law of refraction of light it follows:

sin ψο = -ncos β. (5)

And from relation (3) and (1) we get

Ao = 2ndcos (/ 3/2). . (6)

If the condition Λ ~ Ao and φ = φο are not satisfied. light reflection from the filter does not occur.

Thus, when an uncollimated beam of light is incident on a light filter, only a ray traveling at an angle y will be reflected, and it will exit the filter at an angle of- ₀ . This means that the filter can operate with uncollimated incident light and is not only a filtering according to wavelengths, but also a collimating device.

When exiting the filter, the beam may experience total internal reflection if angle ⁴ satisfies the condition sin / <p /> 1 / n. (7)

Given relation (4). we obtain the boundaries of the possible values of the angle β at which complete internal reflection does not occur:

, 90 ° -arcsin (1 / n) <β <90 ° + arcsln (1 / n).

Claims (2)

The claims A narrow-band reflecting interference filter containing a substrate coated with a reflecting interference coating in the form of alternating dielectric layers, characterized in that, in order to improve the accuracy of the selection of wavelength λ and the angle of incidence of the filtered light, the substrate is made of optically transparent material in the form of an isosceles a triangular prism, and the reflecting interference coating is made in the form of alternating transparent and translucent layers, while the refractive index Ia η transparent layers and the distance d between the translucent layers satisfy the relationship: 2ndcos (/ 3 / 2’J = A, where A is the wavelength of reflected light; β is the angle between equal faces of the substrate.