SU702240A1 - Method of reflecting electromagnetic wave - Google Patents

Description

(54) METHOD FOR REFLECTING ELECTROMAGNETIC WAVE

Claims (2)

  . . The image relates to the field: Intere1: Advanced measurements and can be used in fiber optics to reflect a wave propagating through a thin dielectric light in a wide range of wavelengths. Methods are known. Electromagnetic wave reflections based on the use of reflective surfaces l Closest to. Written; is a method of reflection of an electromagnetic wave, based on its interference imposition when distributed over the dielectric light guide 2.. The disadvantage of this method is the low reflection coefficient and high losses of the electromagnetic wave, due to the need to use multilayer, dielectric; reflective mirrors. There is also a narrow scope. The aim of the invention is to increase the reflection coefficient and reduce the loss of electromagnetic ash, when it propagates in a thin dielectric light guide, as well as expanding the field of application. For this, the wave is introduced into the tunneling section of two optical fibers, crushed into it, removed from the communication section and returned to the same communication section from the back side with the help of a loop, and the length of the tunnel connection section is chosen characteristic length in a given fashion. In addition, in order to expand the field of application, a wave is introduced into a system of three fibers connected by a common tunnel coupling. The length of the communication area for two LEDs is chosen from the ratio 4 and the length of the communication section SI-g, for three light guides is chosen from the ratio 2. 2.NT where the characteristic length of the connection is determined by the following expression kv irz. 2 i. where k and k rt are respectively the longitudinal v transverse components of the wave vector in the optical fiber: d is the fiber thickness; Cf is the imaginary part of the wave vector in the dielectric between the fibers in the tunnel section. Noah connection; d is the distance between the fibers in the tunneling region. FIG. 1 shows a device for the reflection of an electromagnetic wave using a tunnel section of two wave guides. -. , . The device contains the main light guide 1, the section of the tunnel connection 2 and ns L1b of the connection 3. The device (works as follows.: ..; ... - .-. V -, The radiation through the light guide 1 enters the section of the tunnel connection 2, is divided into two equal-intensity waves, which enter the loop 3, pass it in opposite directions and) go through loop 3 to the feedback loop 2 waves and the return of energy to the main fiber 1 .. FIG. Figure 2 shows an electromagnetic wave reflection device using a portion of the tunnel coupling of the Tfjex optical fibers. The device sderyysig main light guide 4, a section of the tunnel connection 5 and loop 6. The device operates as follows. The waveguide 4 enters the section of the tunneling link 5, where it divides into two equal in intensity waves that pass from the middle fiber to the two outermost ones, connected by a 7 0 ,. 4 loops 6. The waves enter the loops, run through it in opposite directions and return to the link section 5 on the reverse side. At the indicated sizes ofz, the interference of two waves and the return of energy from the extreme fibers to the main fiber occurs. 4. The implementation of the considered methods of reflection of an electromagnetic wave increases the reflection coefficient and reduces the loss; provides reflection of a wave, without violating the integrity of the main fiber, as well as without bending it; provides reflection in the Mnogomdovym light drive of one given mode. without reflection of the other modes; enhances the quality and expands the range of application of interference devices on thin optical fibers. Claim 1. An electromagnetic wave reflection method based on its interference by superimposing during propagation through a dielectric fiber, in order to increase the reflection factor and reduce losses, a wave is transmitted through a fiber in a region Two fibers, split it in, out of the communication area and using the return loop from the reverse side to the same communication area, while choosing the length of the tunnel communication area taking into account its characteristic DLih in a given mode. 2. The method according to p. 1, I distinguish between u and u with tem, that, with the purpose of expanding the field of application, a wave is introduced into the system of three optical fibers connected by a common tunnel coupling. Information sources taken into account during the examination 1. G. Rosenberg, Optics of thin layer coatings. M., Fizmatgiz, 1958, p. 355. 2. USSR author's certificate number 173269, cl. H 01 R 7/00, 2O.05D965 (prototype). L. %:%: %%% . %%% /