SU1317470A1 - Phase plate - Google Patents

Abstract

The invention relates to the field of demonstration devices in physics and allows expanding the range of demonstration possibilities in the process of converting an acoustic beam of waves. By placing a phase plate between the sound source located at the focus of the mirror, a corresponding phase shift of the wave front is created depending on the zone of its overlap by the phase plate and the shape of the waveguides of the phase plate. The phase plate consists of uniformly oriented and arranged concentrically one-to-one waveguides 2 placed on the base of I, each of which has a shape formed by the rotation of the regular cone by the body of rotation, and the angle of inclination of the generatrix to the base is determined by the ratio of N p, where -l is the length of the incident acoustic wave H is the maximum thickness of the phase plate, and the body of rotation can be, for example, a helicoid or a paraboloid. When entering the wave front of an acoustic beam of waves, the phase formation The stars formed by the truncation of regular cones by a helicoid show different cases of wave front synphase, and by placing a phase plate formed by truncating the regular cones with a paraboloid on the wave front, they show full tautochronicity of the wave front. 4 ;: F1 / g7

Description

one

The invention relates to the field of demonstration devices in physics and can be used, for example, in the educational process in reading the course of acoustics, optics, theory of waves, and so on.

The aim of the invention is to increase the consistency of the demonstration of the conversion of an acoustic beam

Figure 1 shows a phase plate, the waveguides of which are formed by the truncation of regular cones by a helicoid; figure 2 - the same, but the waveguides are formed by the truncation of regular cones with a paraboloid; Fig. 3 shows the experimental design.

The phase plate consists of waveguides 2 that are equally oriented and concentric with each other and are located on the base 1, each of which has a shape formed by the body of rotation truncating the correct cone, and the slope of the forming cone to the base is determined by the ratio

H about arccos

where L is the length of the incident acoustic

wavesJ

H is the maximum thickness of the phase plate.

In this case, the rotation body can be, for example, a helicoid, the step of Kofoy is equal to the maximum thickness of the phase plate, or a paraboloid given by the equation

h; H (

where H;, G; current height and radius

paraboloid;

R is the radius of the phase plate H - the maximum thickness of the phase plate.

Placing the phase plate between the sound source 3 located in the focus of the mirror 4 and the sound receiver 5, which is in the focus of the mirror 6, creates the corresponding phase shift of the wave front incident on the phase plate depending on its phase-plate overlap and phase shape plates.

When introducing into the wave front of an acoustic beam, waves of a phase plate, formed by truncating the correct cones by a helicoid, de

02

monstrate various cases of wavefront synphase.

Placing a phase plate on the wavefront of the acoustic wave,

formed by truncation of regular cones by a paraboloid, demonstrate the full tautochronism of the wave front.

Application of the proposed phase

The plates will significantly expand the range of demonstration possibilities in the process of converting an acoustic wave of waves, for example, in the educational process when studying courses in acoustics, optics, theory of waves, etc.

Claims (3)

1. A phase plate for demonstrating the conversion of an acoustic wave of waves, containing waveguides equally oriented and equally spaced one from another, characterized in that, in order to expand didactic possibilities, the waveguides are arranged concentrically to one another and each of them has a shape formed by truncating the correct cone with the body of rotation, and the angle of inclination of the generatrix of the cone to the base is determined by   S-th where L is the length of the incident acoustic waves; H - maximum phase thickness plates. 2. Plate pop, 1, is distinguished by the fact that the waveguides have a shape formed by the truncation of regular cones by a helicoid, whose pitch is equal to the maximum thickness of the phase plate. 3. Plate pop.1, characterized in that the waveguides have a shape formed by the truncation of regular cones by a paraboloid given by the equation h; H ( where h;, r - current height and radius paraboloid; R.- radius of the phase plate; H - maximum - the thickness of the phase plate. erig.2