CHERNOVP YU.I., kapitant 3-go ranga Vwxww -- I Students, of the Frunze School on the Volaa. Pbr.sbor. 46 no*20041 F 163, (MIRA 1632) 1. Vybshi komandir vzvoda 62-y strelkovoy brigady. world War.. 1939-1945-Personal. narratives)  L oZ4w-67 EWTW lip(c) JACC .NR. AP6034936 (_A~ SOURCE CODE: UR/0146/66/OO9iOO5/0003/000f, AUTHOR: Sazonov, A. M.; Belonostoy. A. M ; Grigorlyev, S. B.; Strakhov, N. B.;__~~ Chernov, Tu. L. ORG: Leningrad Electrotechnical Institute im. V. I. Ullyanov (Lenin) (Lening~aZskiy elektrotekhnicheskiy institut) TITLE: Spectrometer for the study of broad lines of nuclear magnetic resonance SOURCE: IVUZ. Priborostroyeniye, v. 9, no. 5, 1966, 3-7 TOPIC TAGS: spectrometer, nuclear magnetic resonance ABSTRACT: An all-purpose nuclear magnetic resonance IERqE2Mt~~as been developed for qualitative and quantitative analysis of isotopic concentrations, for the study of ultrasonic resonance absorption in the nuclei of some alkali halide crystals, and for structural measurements of natural compounds. The device incorporates commercia type components (see Fig. 1). The MUN' detector includes crossed coils and direct absorption detectors which provide high sensitivity, and a broad range of lif field intensities. The detector can register the absorption signal or dispersion signal 1/2 UDC: 535.322.2  L d7457-67 ,ACC N.R. AP6034936 #ISO' Md MIV Fig. 1. Block diagram of nuclear magnetic resonance spectrometer. r-r- 4 1 - NMR sensor; 2 - audio generator; 3 - device pro- viding linear variation of magnetic field; 4 - current Y stabilizer; 5 - phase inverter; 6 - block of NW detector; To 7, 13 - hf amplifiers; 9 sc2oiraph 12 8, 14 - detector and voltm- eter; 9 calibrator; 7 13 narrwtmd. 10 15 audio amplifier; d'-Ina I!'- 5.2-mc crystal-controlled synalmonous - - osc detectidaf illator; 12 - power ampli- fier; 16 - synchronous detector 17 recorder; 18 - wave meter; 19, 20 - power sources; 21 fdrromagnetic stabilizer. separately without distortion. The frequency range of the detector is 1-43 mc. Orig. art. has: 3 figures. SUB CODE: ZO SUBM DATE: 25Aug651' ORIG REF: 0031 OTH REF:-001/ ATD PRESS: 5104 :ard 2/2  28102 s/181/61/003/009/036/039 t7,6W, B108/B138 AUTHORS: .'hernov, Yu. Id. , Stepanov, A. V: TITLE; Temperature dependence of the elastic constants of lithium fluoride single crystals PERIODICALi Fizika tverdogo tela, v. 5, no. 9, 1961, 2872-2874 TEM The authors continued previous studies (A, V, Stepanov, I. Y.- Eydus. ZhETF, 29, 669~ 1955 and S. P. Nikanorov, A. V. Stepanov, ZhETF, TL, 1814, 19r-9). Young's modulus E and the shear modulus G of LiF single crystals out in the [loo] and [110] directions were measured by the oscillator 3 method describ9d in the papers cited above, Density was 2.60 g/CM . The measurements were made with longitudinal and torsional. oscillations between room temperature and 5000C, The resonan(;e frequency was determined with an accuracy of 0-05~6. The relative error in measuring the elastic constants S11 St S 1 nted to about 11 = -001 amou 100, 10] . and 44 Card 1/4  28102 S/181/61/003/009/036/039 Temperature dependence of the elastic B108/B138 Ylo, The error in determining the constant S - 2S, _LS an. d 12 11 ~. S11 - 2 44 the compressibility + 2-3 was greater. The thermal-expansion X= 3(S11 .12) data were taken from Ref. 5. The results of the measurements are presents. in Tablel. They agree with those given in Ref. 6 (C. Suss. C. r. Akad. Sci-, 1958, 247, no: 16, 1174), Extrapolation of the nearly li re ar temperature depende nce of E [1001 , E [1101 . and G E, ooi t o ab sol ute zero and to melting point gives the values shown in Table 2. The following conclusions are drawns 1) The elastic Qonstants of LiF are highly temperature dependent. 2) The character of the elastic anisotropy is maintainea throughout the entire temperature range between absolute zero and malting point. There are 1 figure, 2 tables, and 7 references: 2 Soviet and 5 non-Soviet, The 3 references to Eng 1 ish --language publications Xead as follows; L. Hunter, S. Siegel. Phys, Rev,, 61, 84, 1942; L. Balamuth. Phys. Rev. -45-, 715, 1934; C. V, Briscoe, C, F. Squire. Pb,~ s. Rev.., 106, 1175~ 1957~ VaYd 2/4  28102 3/181/61/003/009/036/()39' Temperature dependence of.the.elastic B100138 ASSOCIATION% Fiziko-tokhnic'heskiy inatitut im. A. F. Ioffe AN SSSR rad s ni A. F. Lening .(In titute of Physics and Technology ime' Ioffe of the AS USSR Leningrad)- SUBMITTED: MaY 15, 1961 Card 3/4  AUTHOR: IJAMRK~!-- -YU ~-P TITLEt The Steady Rotation of RelaiiTiiy Theoryp 672!/ SOV/20-129-4-13/68 Ciamic Gas Manses in the General PERIODICAL: Doklady Akademii nauk 888R, 959t Vol 129, Nr 4v YP 762-765 (USSR) ABSTRACT: The author here investigates a gas mass filling The entire space, which ptaies steadily rounu iis own axis in its own OEavitaiional` field. This rotation is considesed to be adia- balloo Th ural density of the rest mass Q 9 the pressure p and the classical velocity of motion of the gas on Ahs,'paral- Iola of latitude vt in infinity tend towards zero with auf- ficient velocity. The origin of the cylindrical system of oo- ordi"tes We** vith the center of mass 0 and the z-axis agrees with the rotational axis,'%j- To tho assumption of steadinesso the axial -,symmetry of rotation, a..! to the distribution of the **&*.a parameters of the gas, there corresponds for an interval in the four-dimensional Riemann space an expreasion of the form card 1/4  67251 BOV/20-129-4-13/08 The Steady Rotation of Cosmic Gas Masses in the General Relativity Theory 2 2 2 12 1 3 '22 -do , 900 dx* + 2go2 dxodx + glldx + 2g,,dx dx + 922 dx + + g33 dx3 2, Her* x0 - cit x1 , 10 x 2 X3 . z holdst o vs- looity of light. The present paper aims at dej:rtaining the com- pamte of the metric fundamental tensor gik (x x2) (ilk_OjIp2p3) of the pressure p(xlpx3) and the rotational velooity V~(X 1 JZ3) as well as of the given density distribution Q(x 1*X3). The covariant components of the metric tensor have the form 900 0 g o2 0 ik 0 g11 0 g 13 9 92o 0 22 0 10 g I g 31- 33 Next, the contravarlant and the oovariant components of four- dimensional volocity and of the classical rotational velooity~/ /4 are written down. The energy-momentum tensor of the field has Oard 2 the form  6725/ SOV/20-129-4-13/68 The Steady Rotation of Cosmic Gas Masses in the General Relativity Theory Tk , wuku + p6 k (w . Q02 + p). Two of the four relativistic i i i Euler equations are satisfied identically, and the two others are explicitly written down. Einstein's gravitational equations are solved by employing the method of successive approximation. The time at and the longitudinal angle T automatically proTed to be harmonic coordinates. The components of the metric funda- mental tensor are set up as series with respect to the small parameter 0 By substitution of these ansatzes into the gravi- tational equations ard by a comparison of coefficients a number of systems of equations is obtained. Next, the equations re- sulting in first approximation as well as the expressions for the Newtonian potential and the vector potential of gravitation are written down. If the components of the metric tensor in the Cartesian system of coordinates in first and second approxi- mation are known, they can be written down without any difZicul- ties also in the Cartesian system of coordinates. Five equations are obtained for the five quantities p9 V~ 9 Wf , h(2 ) and for the given function Q. In first ap- 00 Card 3/4 proximation the following is obtained for p and vV  6725/ SOV/20-129-4-13/68 The Steady Rotation of Cosmio Gas Masses in the General Relativity Theory z 0) 8V (1) Q od and in second ~00 r Z;VY approximation p (2) 0) + 0- 2 B(i)dz, v(2) V (1) 1 -2 A(') p ~0) ~ - ~ - 7 71-71. In this manner it is possible to determine any approximationv~ 9(n) (n) . (n) from the given density Q. It is further said tikat'thpe autWor thanks Professor F. I. Frankl' for useful advice.. There are 6 references, 5 of which are Soviet. ASSOCIATION: Kabardino-Balkarskiy gosudarstvennyy universitet . (Kabardino-Balkarskiy State Univerait ) PRESENTED: July 9, 1959, by L. 1. Sedov, Academician SUBMITTED: July 7v 1959 Card 4/4  __qHERNOV, Yu. P., Cand Phys-Math Sci -- (diss) "Established trends in the general theory of relativity." Kazan', 1960. 8 pp; (Miiiistry of Higher and Secondary Specialist Education RSFSR, Kazan' Order of Labor Red Banner State Univ im V. I. Ullyanov-Lenin); 150 copies; price not given; (KL, 30-60, 136)   NR- --:~'-AR . . . 404688WE. mal methods through tangentlal velocity and density. The derived corrections to metric tensor elements make It possible to write the first and second app-ox7ma- t7ons to Euler's relativistic equation, the latter defining pressure, tangential I velocity and corrections to these values, Bib]. with 12 title5. V. Ts. Gurovich SUB CODE; ME ENCL: 00 2AL'  s 4 TOPIC~TAGS*. -r;e pi-rat on -resji~iitory system, neurophysiology !ABSTRACT: The manner in *hicb occlusion of the common carotid arteries and deneivation of the si-nocaroxid area affect respiration in cats under excessive intrapulmonary tension (30 mm,Hg) was studied. Occlusion of the common carotid I H__ _A thi4espiration retention occurr4g in response to as e -crea -M:$7-Whjje atiqu -Ab*=- lbe- :~_'Ljlbp ~~uib7d' -a- n- hii Ah-ftis tension. In the cas'e of inctoase-d pulmonary oxygen tension, occlusion of the corimon carotid arteries and denervation 1, of the sinocarotid zone bad no appreciable effect on the time of ri-spiratory arrestj .-Cara 112, -jR, M~ AMWMAML  Card  TEREKHOVA, Yu.P.; MARBINA, K.M.; SUKHORUKOVA, L.L.; CHERNOV Yu P., - - - kand. fiz.-mat. nauk, otv. red. [Progranning methods for the "llinsk-l" conDuterl Metodika programmirovaniia na mashine "Minsk-l". Frunze, Ilim, 1965. LU P. (MIRA 18:12)  ,OHEUIOV. Yq.-a.;-ASTAPW'lKO, P.D. Orographic clowls. Inform. blul. Sov. antark. eksp. no.19:51-54 '6o. (MIRA 13:9) (Antarctic reglons-Cloud physics)  innh. Construction of a shop with a span of 40 m. in the Federal Republic of Germany (from uBston und Stahlbatonbau," no.3, 1962). From. stroi. 40 no.9:62-64 162. (MIRA 15:11) (Germany., West-Precast concrete construction)  CHI~nov, Yu. V. CHERNOV, Yu. V. --"The Question of the Resistarce to Motion in Natiwal Waterway Carrents." *(Dissertations For Degrees In Science And Engineering At USSR, Higher Educational Institutions). (34). Acad Sci Uzbek 33R, Inst of Structtires, Tashkent, Press of the Acad Sel Uzbek SSR. 1955 SO: Knizhnava Letopis' No. 34, 20 August 1955 * For the De,clrco of Doctor of Tochhlcul Sciences  N OV y4, V, 124-11-12687 Translation from: Referativnyy Zhurnal, Mekhanika, 1957, Nr- 11, p 51 (USSR) A AuTHOR: Chernov, Yu. V. , and Topchevskiy, B. A. TITLE- On Empirical Formulas for the Mean Velocity of Liquids in Open- Channel Flow. (Ob empiricheskikh formulakb sredney skorosti dvi- zheniya zhidkosti v ruslovykh potokakh) PERIODICAL: Tr. In-ta nefti, A N KazSSR, 1956, Nr 1, pp 76-87 ABSTRACT: The authors have collected and analyzed various empirical formulas, known in the literature, for the mean velocity of liquids in open-channel flow, all of which do not contain any roughness term, namely, the formulas of Ch6zy-Brahms, Gerlacher, Sribnoy, Haessle, Hermanek, Humphries and Abbott, Christin, Matakevich, and Linboe. On the basis of an analysis of the formulas of Kuznetsov, Nikuradze, and Zheleznyakov, the Authors deduce their own formula for C which also does not contain any roughness parameter and replaces it with the inclination, mean depth, and coordinate of the mean velocity. The comparison of the results of the computation of C according to the formula proposed by the A~s and according to the abovelisted earlier Card 1/2 formulas is shown graphically (unfortunately, there is no identification  124-11-12687 On empirical formulas for the mean velocity of liquids in open-channel flow (cont. of the curves and formulas). The Authors have arrived at the con- clusion that the expression for C accordinp , to Chilzy for open-channel flow can be transformed into the expression offered by the Authors, but that none of the empirical formulas coincide fully with that ex- pression. The A. 's define the limitations of the applicability of the empirical formulas. A. M. Latyshenkov Card 2/2  SOV/124-57-9-10315 Translation from: Referativnyy khurnal, Mekhanika, 1957, Nr 9, p 60 (USSR) AUTHOR: Chernov, Yu. V. TITLE: On the Velocity Distribution in Natural Open-channel Flows (K voprosu o raspredelenii skorostey v yestestvennykh ruslovykh potokakh) PERIODICAL: Tr. In-ta nefti. AN KazSSR, 1956, Vol 1, pp 88-99 ABSTRACT: Cross-section characteristics of the various forms of open-channel flow are discussed (the relationship of the mean velocity over the entire cross section or along its axial normal to the maximum veloc- ity). The author concludes that, for the time being the velocity dis- tribution is not an accurately defined function of the depth across the cross section and of the corresponding roughness. He confirms this by a series of measurements and by a critical analysis of semi- theoretical propositions (Russian and foreign). Bibliography: 10 references. V. N. Goncharov Card 1/1  SOV/124-58-1-890 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 1, p 119 (USSR) AUTHOR: Chern TITLE: Some Laws Governing the Uniform Motion of a Liquid in Open-channel Flows Carrying Sediments (Nekotoryye zakonomernosti ravnomer- nogo dvizheniya zhidkosti v ruslovykh potokakh, vlekushchikh nallosy) PERIODICAL: Tr. In-ta nefti AN KazSSR, 1956, Vol 1, pp 100- 113 ABSTRACT: The author obtains a formula for the mixing length on the basis of the following assumptions relativeo to the structure of the flow: The mean-square deviation of the vertical component is assumed to be constant; the vertical scale of the eddies, which is determined as the ratio of the mean-square deviation of the vertical velocity to the mean- velocity gradient, is, assumed to be proportional to the distance from the wall; the square of the mean-square deviation of the longitudinal velocity is assumed to vary according to a linear law. The integra- tion of the Prandtl equation for the mixing-length relationship thus obtained relative to the coordinates leads to a logarithmic curve of the Yasmund- Nikur adze type. On the basis of that curve the author Card 1/Z then analyzes the structure of the Ch4zy coefficient and shows that  Some Laws Governing the Uniform Motion of a Liquid (cont. ) SOV/124-58-1-890 the latter can be expressed as some function of Karman' s x constant and a certain geomorphological channel-bed characteristic ~ . The values of x and ~ for open- channel flows are determined by means of an analysis of high-speed river-flow observations [ Zheleznyakov, G. V. , Gidravlicheskoye obosnovaniye metodov rcchnoy gidrometrii (Hydraulic Foundation of the Methods of River Hydrometry). Izd-vo AN SSSR, 1950]. In conclusion the author adduces empirical formulas for the relationship between the slope and the roughness of the bottom for open-channel flows. Bibliography: 14 references. Ye. M. Minskiy Card 2/2  CHERNOV, YU.V. Approximate equations of the length of disturbance and lateral scale of turbulence. Uch. zap. Mord. gos. un. no.15 pt.2:62-67 163. (MIRA 18:6)  CHEptlr,lj,-~f,, D -.y,_ of :r-i.-;!rg a-;.r by- rreanj gliders. Tnudy TSAO If"< a (IfIR-L 18 28)  CHERNOV, Z. S. "The Spiration - a paper presented at 29 May to 2 Jun 1956 a Centrifugal Electrostatic Focusing Traveling-Wave Tube," the International Conference on Microwave Ttibes, Paris,, B-99309, 30 Aug 56  ))10V, SUBJECT USSR PHYSICS CARD I / 2 PA - 1530 AUTHOR Author not mentioned. TITLE The Scientific All Union Session (held in connection with "Broadcasting Day"). PERIODICAL Radiotechnika, 11, faso. 9, 74-79 (1956) Issued: 19-10.1956 Z.S. CERNOV delivered a report concerning the results obtained on the occasion of the investigation of spiratrons, which are new tube-type devices with propa- gating waves and electrostatic focussing of electron currents. E.D. NAUMENKO spoke about the results obtained by the working out of laboratory models of reflecting klystrons for measuring purposes. V.A. KLJAZKIN discussed the compensation method of coping with impulse disturb- ances in a wireless set. He also described ways and means for the practically complete elimination of impulse disturbance by compensation methods. B.1. RASSADIN pointed out the experimentally confirmed advantages of a signal transmission in a frequency band in four-channel systems in radio telephone- and telegraph communication. He recommended a method by means of which nonlinear dis- tortion can be --~~siderably diminished. A.P. ANGAFOROV demonstrated two basic principles of construction as well as the construction of television tubes for the production of a direct representation of the image; A three-ray tube with a darkening mask and a mosaic-pattern  Radiotechnikaj 11, fase. 9, 74-79 (1956) CARD 2 / 2 PA - 1550 luminescent screen (of the Kolortron type) and a one-ray tube with a control net and a striped luminescent screen (of the Chromatron typo). A.D. ASATIAN described the characteristic of tube types such as are used in Western Europe and the USA for broadcasting- and television sets, and he gave a survey of the new Sovietic "finger-tubes" for television- and radio sets. A.K. BEKTABEGOV reported on the new piezoceramic pickup which offera a number of advantages. I A.G. MURADIAN analyzed the working of amplifiers in semiconductor devices with series- and parallel back-coupling. B.A. KRASJUK described the experimental examination of the modification of the magnetic properties of alloys of the "Permalloj" type under the influence of gamma.rayB. INSTITUTION:  SOV/112-57-6-13015 Translation from: ReferatA2vnyy zhurnal, Elektrotekhnika, 1957, Nr 6. p 194 (USSR) AUTHOR: Chernov, Z, TITLE, Tlie-flr~t International Congress on SHF Electronics (Pervyy Mezhdunarodnyy kongress po elektronike sverkhvysokikh cliastot) PERIODICAL: Novoye vremya, 1956, Nr 38, pp 26 -29 ABSTRACT: Bibliographic entry. Card 111  CHWQV - Z. S. "systems Witb.Centrifugal-Blectrostatic,j?ocusing of an Electron Beam,~' by Z. S.--Chernov,, Institute of Radio Engineering and Electronics,, Academy of Sciences USSR, Radiotekhnika i Elek- tronika No 11, Nov 56, pp 1428-34 The author describes a new electrostatic system for forming and focusing an electron beam with spiral movement of the electrons. The de- vice is called "Spiratron," and is a combination of a traveling wave tube and a two-beam amplifier., which does not require magnetic focusing of the electron beam. The basic component of a spiratron is an electron-optical system, consisting of an electron gun, vhich forms a ribbon-like electron beam. The electron beam is injected at an angle to the axis of the tube Into a space between the two concentric cylinders, one of which acts as an electron decelarating device. Leaving the electron gun, the beam has both axial and tangential components of velocity, and moves in a helical trajectory. The experiment was conducted at frequencies of from 100 to -4,500 14c. A well-defined electron le-am of 300-400 milliamperes per sq cm current density was obtained. - The article brings out a number of advantagesand possibilities of the centrifugal-electrostatic focusing of an electron beam. -.This report vas-originally presented at the International Congress of High-Prequency Devices., Paris., 2 June 1956. Sum IP58  TW12HP_RNOV~ Z-S. AUTHDR: TITLE: FERIODICAL: ABSTRACT: Card 1/2 CBERNOV,Z.S., BYERNASHEVSKIY,G.A. Some Problems of the Electronics (Nyekotoryye problemy elektroniki Russian) Vestnik Akademii Nauk SSSR, 1957, Received: 5 / 1957 PA - 249 of Superhigh Frequencies. svyerchvysokikh chastot, Vol 27, Nr 2, pp 43-49 (U.S.S.R.) Reviewedt 6 / 1957 This paper describes devices which are used for the production of radio tubes for propagated waves. The slowing-down structures in which eleotrowgnetic waves are given a phase velocity that is inverse to the propagation of the waves, are deal-'V- with. There follows a description of other devices for superhigh frequencies which are constructed on the principle of continuous interaction. The application of radiolooation, the construction of radio relay stations, which have already been in use in Franoeq England, Ttaly, and Japan is described and met with considerable interest in the U.S.S.R. In accordance with the regulations issued by the XX. Party Congress it is intended to build no less than 10.000 km of radio relay lines within the next 5 years. Also the application of the aforementioned'tubes for electron computors etc. is dis- cussed. The paper further deals with new systems of forming eleotrorx bunales in accordance with the method developed by the American scientist D. PEERS , upon the basis of which the Russian scientist  PA - 2491 Some Problems of the Electronios of Superhigh Frequenoies. B.T. OVOHAROV intends to develop a method which would make it pos6ible to deterudne the exterior fields of electron flux. Furthermc.,.v, the idea of the "soundless cathode is discussed. ASSOCIATICK: Not given PRESEM BI; SUEMITM: AVAITABI Library of Congress Card 2/2  CHMNOV, -7. S. (Acad. Sci. USSR) "Interaction of electromagnetic waves and electron beans in centrifugal electrostatic focusing sjstems," paper to be presented at the Intl. Symposium on Electronic Waveguides," Polytechnic Inst. of Brooklyn, New York, 8-10 April 1958 Advance program  AUTHORS: Chernovf Z. S., Bernashevskiy, G. A. SOV/3o-158-7-10/49 TITLE: Symposim on "Electronic Waveguides" in the 1JSA (Simpozium p0 4elektronnym volnovodam" v SShA) PERIODICAL: Vestnik Akadeziii nauk SSSR, 1950, Nr 7, PP- 92 - 95 (USSR) ABSTRACT:, The Symposion on Basic Problems of Super-Hi,-:h Frequency of Electronics took .-)lace in New York (Nlyu-Iork) from April 8 to April 10. The renorts delivered comprised communications on various types of SVC~h amplif iors. Such amplifiers also are the subject of the work if Soviet scientists, N.G.Basov, A.M. Prokhorov, M.Ye.Zhabotinskiy and others with the purpose of obtaining amplifiers with extremely 1o% set noises. The Soviet scientists.delivered 2 reports: Z.S.Chernov described the characteristic features of the interaction of electromagnetic waves with electronic currents in systems with centrifugal- electrostatic focusing. G.A.Bernashevskiy spoke on result$ obtained by a versatile inveetigation-of-electronic.two-.ray~wave Card 1/2 systems. The round table discussion which took place at the end  SOV/109-3-10-1/1- AUTHOR: TITTS: Methods of irocusing Electron Beams in 1.1odern Ultra Ei,,~-h- frequency (Microwave) Devices (Metody fokusirovki elektronnylch potokov v sovremennykh priborakh sverkhvysoki'%-h chastot) PERIODICAL: Radiotekhnika i Elektronika, 1958, Vol 3, 1--Tr 10, pp 122? - 1242 (USSR) t~e ABSTRACT: The existing systems of focusing electron beams can be classified as homogeneous and periodic. In the first class of the devices, the fozusing fields vhich compe-nsat--e the Coulomb forces are constant along the beam, whereas the second class ensures the required cop-figuration of tl)e beam by passing it through a periodic system of maSnetic or electrostatic lenses or mirrors. The focusing systems can also be divided into maZ;netic and electrostatic or combined devices. The classification can be illustrated by means of a diagram, such as shomrin in Figure 1. In the figure, all the homogeneous systems lie to the right of the line A-A and periodic systems to the left of the line. On the other hand, the mat~netic methods are situated below the line B-B and the electrostatic ones above the line. Cardl/6 The following individual systems are shown in this fiEure:  SOV/109-3-10-1/12 Methods of Focusing Electron Beams in'Modern Ultra Eigh-frequency (Microwave). Devices 1) longitudinal magnetic field (BrilloAn beam); 2) centr, fugal, electrostatic focusing; 3) Harris and Crumly system; 4) periodic electrostatic focusing; 5) the Chang system- 6) "Slalom" beam; 7) periodic magnetic focusing; 85 focusing by auxiliary fields; 9) 11meander" beam and, finally, ionic focusinG. The method of employing a longitudinal magnetic field is the simplest and consists of employing a strong field in order to equalise the electron trajectories. The Brillouin beam (Ref 1) is a development of this system; in this case, an electron beam having a circular cross-section is rotated around the axis whose direction is parallel to the magnetic field (see Figure 2). This method permits the focusing of electrons by employing comparatively low fields but there are practical difficulties in constructing appropriate' focusing systems. The centrifuCal, electrostatic focusing system is based on the use of a helical electron gun (Figure 3) and a pair of helical focusing electrodes; it also contains a cylindrical anode and a focusing central Gard2/6 0  SOV/109-3-10-1/12 Ilethods of Focusing Electron Beams in Tyllodern Ultra High-frequency (Microwave) Devices conductor. The Harris-Crumly system employs a hollow, cylindrical electron beam (Figure 5) which is formed in a magnetically screened cone; the beam is then introduced into the field of a cylindrical condenser. The periodic focusing systems can be either magnetic or electrostatic. The classical, periodic, electrostatic focusing system (Figure 6) is very simple. This device is, however, rather ineffective in ultra high-frequency applications. An improved, electrostatic, periodic focusinG system was proposed by Chang and this is based on a rotating bean-, of the type similar to that of the Harris-Orumly system. The centrifugal force is balanced by the focusing force of a periodic, electrostatic field which is produced by a double helix (Figure 7). The second system, which employs the principles of periodic and centrifugal electrostatic focusing, is that due to Kompfner (Ref 22). This is the so-called "Slalom" beam ~Figure 8), where the two systems of electrodes form the integral part of a slovi-vave structure, leigure 9 shows a magnetic, periodic, focusing device which consists of a number of maGnetised rinGs which produce an Card3/6 almost sinusoidal field distribution along the axis of the  1W