SU1190334A2 - Multiple reflection device - Google Patents

Abstract

1. DEVICE FOR MULTIPLE REFLECTIONS on author. St. No. 1123008, characterized in that, in order to reduce the loss of scattered radiation, a reflecting spherical surface is introduced into it, filled in the form of a spherical sector located on the side of a single-sided hyperboloid, we take the axes of the spherical sector and hyperbolocation. 2. The device according to claim 1, which is designed so that, in order to reduce overall dimensions, an opening is made in the surface of the spherical sector for the passage of radiation from the source. with with W with 4

Description

1 The invention relates to optical instrumentation, can be applied in spectroscopy and is an improvement of the device according to the authors. St. № П23008. The aim of the invention is to reduce the loss of scattered radiation. The drawing shows the proposed device. The device contains a radiation source 1, a reflecting surface 2 made of a single-cavity hyper boloid and a straight cylinder with coinciding axes and conjugate internal surfaces along the first-section section of the hyperboloid, reflecting surface 3, filled from the spherical part of the spherical sector, intersecting the axis center M, lying on the axis, the receiver 4 of the scattered radiation. The proposed device works as follows. The radiation from the source is directed to the surface of the hyperboloid 2 and makes multiple reflections across the device axis mainly in the plane of the hyperboloid throat section and further in the cylindrical part of the device. The radiation scattered in the direction of the spherical surface 3 is reflected to receiver A. The diameter of the base of the globular sector is equal to the diameter P of the cylindrical part of the device. The point of intersection of the base with the axis of the device is chosen in such a way as not to prevent the source radiation 342 from entering the device. The radius of the ball must be such (Fig. 1) that the total radiation from any point K lying on the edge of the throat section of the hyperboloid is reflected from the spherical surface opposite to the diagonal of the device parallel to the axis of the device p 2 sin (j arctg Y). The parameters of the ball sector are practically all scattered in the direction of the sector from any point A lying inside the device, radiation escapes through the end of the cylindrical part of the device and enters the receiver (Fig. 1). Since the amount of radiation outputted by the ball sector depends on the projection angle, under which the sector from the scattering volume is visible, with a decrease in the distance T (Fig. 1), this angle can be increased. The reduction in the distance T is limited by the input of radiation from the source into the device, the possibility for the radiation from the source to make multiple reflections unhindered, as well as the spatial dimensions of surfaces 2 and 3. The biggest limitation on T is the input of radiation from the source into the device. This restriction can be eliminated if an opening is made in the surface 3 for introducing radiation from the source.

Claims (2)

1. DEVICE FOR MUCH- MIRROR REFLECTION by ed. St. No. 1123008, characterized in that, in order to reduce the loss of scattered radiation, a reflecting spherical surface is introduced into it, made in the form of a spherical sector located on the side of a single-band hyperboloid, and the axes of the spherical sector and the hyperboloid coincide. 2. The device according to π. 1, characterized in that, in order to reduce dimensions, a hole is made in the surface of the spherical sector for the passage of radiation from the source. 1 190334