SCIENTIFIC ABSTRACT MINTS, A. L. - MINTS, D. M.

107-57-1-2/60 AUMOR: Academician A.I. Berg, Academician B.A. Vvedenskly, Academician S.A. Vek- shinBkly, Academician V.A. Kotellnikov, Corresponding Member AS USSR A.L. M Corresponding Member AS USSR A.A. Pistollkors, Corresponding Member R V.I. Siforov TITLE: Search, Dare, Create (Ishchite, derzayte, tvorite) PERIODICAL: Radio, 1957, Nr 1, p 1 (USSR) ABSTRACT: This is an open letter, an appeal to radio amateurs to experiment boldly, to create now designs, to promote new ideas in application of radio and elec- tronics in industry, farming, transportation, and communication. The role of radio amateurism as a preparatory school for radio specialists in Industry is noted. Achievements of radio and electronics are considered as a basis of development of all sciences, production, and even planning. Radio amateurs are urged to search, to dare, and to create. AVAILABLE: Library of Congress Card 1/1  \v4eroy Sotsialistichookogo Truda. MINTS A.. Fran the origins of Soviet radio engineering to the most powerful proton synchrotron In the world. ]Radio no.11:22-24 1 '57. (MIRA 10:10) 1. Chlen-korrespondent AS SSSR. (Synchrotron)  109-10-3/19 AUTHORS: Mints, A.L., Basalayev, M.I., Oganov, N.I. and Rudnev, Ye.V. TITLE: -1 Continuously-evacuated Power Triode Type PrM-500 (Generatorn,yy triod s nepreryvnoy otkachkoy RGM-500) PERIODICAL: Hadiotekhnika i Elektronika, 1957, Vol-II No 101 pp. 1240 - 1~52 NSSR) ABSTRACT: The authors of this article have been engaged during the last few years on the development of a 500 kW triode, whose construction differs substantially from that of the earlier models. Four such triodE, type I'M -500, have been employed successfully at one of the Moscow medium-wave broad- casting stations and two triodes have given a satisfactory performance in high-power, short-wave,transmitters. Design of the 'riode was carried out on the basis of the theory given by Kuzunoza (Ref.4) and Zusmanovskiy (Ref-3). Some of the technical data of the triode are as follows: emission current 350 A, cathode efficiency 8.55 mAIW, cathode life 3 000 hours, heater power 40 kW, length of the active portion of the cathode wires 350 mm, diameter of the cathode wires 1.2 mm, number of cathode wires 36 (12 wires per phase), heater voltage 1?.2 V, heater current in each phase 780 A, diameter of the cathode "cylinder" 160 mm, diameter of the grid "cylinder" 1?0 mm, Cardl/3  A Continuously-evacuated Power Triode Type ITM-500. 109-10-3/19 internal diameter of the anode 210 mm, diameter of the grid wires 0.6 mm and the spacing between the grid wires 5 mm. The tube has a mutual conductance of 250 mA/V, grid-cathode capacitance of 302 pF, anode-cathode capacitance of 12.5 pF and anode-grid capacitance of 216 pF; amplification factor of the tube at the anode current of 100 A is 23, and at the anode voltage of 10 kV the tube can give an output power of 500 M The maximum dissipation power of the tube is 500 kW at the anode and 15 kW at the grid, if the tube is cooled at a rate of 550 litres of water per minute. The body of the tube is in the form of a hollow cylinder consisting of xix copper flanges having the form of flat rings which are separated from each other by means of hollow cylindrical quartz insulators. (Overall views of the tube are given in Figs. 2 and 3, while constructional details are indicated in Figs. 4-8.) The grid of the Uft IB in the fwm-af a Otrwtj min" consisting of 9 molybdenum rods fixed on to molybdenum rings (see Fig.?). The grid wires are in the form of tungsten rings mounted around the cage. The anode is in the form,of a hollow copper cylinder having a height of 550 mm. The lower end of the anode is terminated Card2/3 with a copper flange (am FIg 8 ond 4), while the upper end contains  A Continuously-evacuated Power Triode Type PrM-500- 109-10-3/19 a spheric 1 o p r terminal. The triode can be easily assembled or dismantled if necessary). While assembling the triode, the flanges and the insulators are made vacuum-proof by means of a special sealing wax. The evacuating system for the tube (see Fig.9) consists primarly of a high-vacuum oil-diffusion pump - and two vacuum auges. The system produces a vacuum of the order of 2 x 10-9 ;mHg. The authors thank N.M. Illvovskaya, who took part in the development work and A.A. Skvortsov and A.V. Demchuk for their help in the preparation of the triodes. Also, the experimental work done by A.V. Ivanov et al. from the USSR Ministry of Communications (Ministerstvo Svyazi'SSSR) is acknowledged. There are 11 figures, 2 tables and 3 Slavic references. SUBMITTED: May 13, 195?. AVAILABIE: Library of Congress. Card 3/3  MIN T5, q-L-. AUTHOR: None given 109-11-1/8 TITIZ: Years 1917 - 195? (191? - 1957 99) PERIODICAL: Radiotekhnika i jslektronika, 1957, Vol-II, No lit PP. 1319-1343 + ~ PlateE(USSIJ ABSTRACT: The forty years of the Soviet Uovernment in Russia have not only changed the social structure of the country but have &lso resulted in a great industrial and technological progress. Thus, by 195?, the industrial output increased by thirty times as compared with that of the pre-Revolutionary Russia, the number of universities increased to 800, the number of Bcientifil establishments increased up to 3 000 and the number of scientif 'ii workers up to 240 000. Also, the radio and electronic science and industry has progressed greatly since the days of A.S.Popov, who conducted his first radio experiments in 1895. Yrom the very begiiining, the Soviet Government has paid attention to the future possibilities to be offered by radio communications and in 1918 a radio laboratory was established at bizhegorod under C) M.A. Bonch-Bruyevich, whose main task was to develop powerful transmitting tubes. The laboratory fulfilled its task very satisfactorily and in 1922, the Central Moscow Radio Station ras fitted with a 12 kW transmitter operating at 3.2 km wave- Qardl/7 length. The laboratory developed also a shortwave transmitter  Years 191? - 1957- l09-11-1/8 which, in 1925, gave a power of 15 kW at a wavelength of 100 m. A radio laboratory (primarily for the armed forces) Tas also established at Kazan' under the leadership of A.T. Uglov and A.V. Dikarev. A.L. Mints developed and constructed a number of powerful broad-ca-s-Ting stations: a 100 kW longwave trans- mitter in 1929, a 500 kW transmitter in 1933 and a medium- wave 1 200 kW transmitter in 1943. Apart from the engineering achievements, a considerable number of engineers and scientists have been engaged in experimental and theoretical research. In the field of radio-broadcasting reception, a number of original, theoretical works and practical designs have boen carried out by Ye.G. Momot, V.A. Kotellnikov, ii.n. Krilov, V.I. Siforov and L.B. Slepyan. During 1927-28, the first batter3 receiver was produced in quantity, while the first mains-fed receiver was put in production in 1934. Since then, a number of new designs have been put into production, so that in 1956, the total output of radio-receivers was over three million, while in 1960 it is planned to produce ten million. Soviet scientists have also'investigated the field of vacuum technology Card2/,~- cathode e-lectronics,and the theory of thermionic devices.  Years 1917 - 1957 109-11-1/8 The works of I-Ye.Tamm and S.I. Shubin, who proposed the theory of external photo effect, are of particular importance. The development and production of electronic tubes (both transmitting a-nd receiving) were originated by M.A. Bonch-Bruyevich in la.16. In 1919, a tube fitted with an aluminium anode was already in production, while the first electron tube factory was estab- lished in Petrograd in 1922. M.A. Bonch-Bruyevich and his collaborators developed power rectifiers and water-cooled power tubes in 1919, while oscillator and transmitter tubes of up to 500 kW were developed during the years 1935 - 1956. Soviet scientists have also been successful in the development of magnetrons. The first multi-resonator magnetron for frequencies up to 12 kMc/s was developed by V.P. Ilyasov in 1939. Klystrons were developed in 1940, while travelling-wave tubes and backward- wave tubes were developed a few years later. Today, the annual production of electron tubes in the Soviet Union is one hundred million, while that of semi-conductor devices is twenty million. The first experimental television transmissions were commenced in the Soviet Union in 1931; these were based on the mechanical Nipkow-type scanning. The first Soviet iconoscope was developed oard3/?by A.V. Moskvin in 1933 and its first production samples  Years 1917 - 1957. 109-11-1/8 appeared in 1937. The electronic television system was first tried in 1938 both in Moscow and Leningrad, but the real devel- opment of the Soviet television dates from the end of World War IL Since then, 75 television transmission centres have been established and a mass production of television receivers has been commenced. Thus, in 1956, the Soviet industry produced half-a-million television receivers. SOviet scientists have been working also in the field of antennae and antenna feeders. In 1927, I.G. Klyatskin proposed the so-called induced-current method for the investigation of the radiation-resistance of a single conductor; -the method was generalised by A.A.Pistollkors. In 1935, M.S. Neyman introduced the reciprocity principle to the solution of the antenna problems and later investigated the radiation properties of slot antennae. L.A. Vaynshteyn cal- culated the radiation of an open-ended waveguide, while A.S. Fistol'kors investigated the properties of coupled transmission lines. The radio propagation studies were first commenced by M.V. Shuleykin in 1923, who modified and correctedthe Sommerfeld equations. A school,led by L.I. Mandllshtam and 14.D. Papaleksi, determined the velocity of propagation and the structure of radio (;ard4/? waves in the vicinity of the Earth's surface (years 1933 to 1941).  Years 191? - 1957 log-11-1/8 Soviet scientists have also made original contributions to the theory of ionospheric propagation, shortwave propagation, wave- guide tropospheric propagation, radio wave diffraction and ultra- shortwave propagation. The problem of combating the noise in radio communications has been studied intensively and, in 1933, V.A. Kotellnikov published a work entitled "The Transmission Capacity of Ether and a Conductor in Electrical Communications". The same author has also made valuable contributions to the statistical communication theory and the information theory. V.I. Siforov has been investigating similar phenomena since 1929 and has published a number of works dealing with: aoss- modulation, theory of amplitude phase and time discrimination, theory of fading, cc-ding, pulse transmission and theory of noisy active quadrupoles. The contribution of the 3oviet scientists to the theory of non-linear oscillations is well known. In particular, the contributions of A.A. Andronov and A.A. Vitt, also of S.Ye.Khaykin and N.M. Krylov have been regarded as standards and translated into various languages. Radio- engineering and electronics have entered and, in fact, created various scientific fields E;~--ch as radio navigation, radarl radio- Card5/7 spectroscopy, geodesy, physics and meteorology. The first  Ybars 1917 - 1957. 109-11-1/8 Soviet range-finders were developed in 1930 and, since then, such complex equipment as radio-telescopes, molecular standard clocks and finally a ten thousand million eV synchro-phasotron have been developed. The first radio-engineering courses were established in the Soviet Union in 1920, while, in 1930, special radio-engineering faculties were created at several Soviet universities. In 1955, the training system was reorranised and the following specialis- ations were established:electro-vacuum technology (radio and industrial electronics), radio-engineering (communications, radar7 navigation and television), radio-physics (electronics, theory of oscillations, electron optic's and the physics of ultra-high-frequency), and electrical instrumentation technology (automation, telemechanics, measurements techniques, navigational equipment). Soviet scientists and pedagogues have published a number of textbooks suitable for engineering students and for research workers. Since 1924, a technical journal "Radio" has been published without interruption and by now its circulation has reached 200 000 copies. At this stage, three scientific- technical journals are being published regularly: "Radiotekhnika" (;ard6/r? "Blektrosvyaz" and "Radiotekhnika i Elektronika".  Years 191? - 1957 log-11-1/8 There are 10 figures and 111 Slavic references. AVAILABIE: Library of uong-ress Card ?/?  AUTHOR: Mints A L (Moscow) 24-5-11/25 TITLE: Scientific and technological principles of construction of roton accelerators at the United Institute of Muclear Studies auchno-Tekhnicheskiye osnovy sooruzheniya protonnykh N uskoriteley ob"edinennogo Instituta Yadernykh Issledovaniy). PERIODICAL:"Izvestiya Akademii Nauk, Otdelenive Tekhaicheakikh Nauk" (Bulletin of the Ac. rac., Technical Sciences Section), 1957, No-5, pp-92-101 (U.S.S.R.) ABSTRACT: This is a general review paper. It begins with an account of the fundamentals of the cyclotron and the linear accelerator and goes on to give a general description of the phasotron and the synchrophasotron at the U.I.N.S. All the factual material given has been published before and is drawn from the 24 references given at the end of the paper. a) The Phasotron or synchrocyclotron ~9). This 6 m machine gives 680 MeV protons and utilises a magnetic field of 16 600 Oersted. The amplitude of the frequency modulated acceler- ating voltage is 15 kV (frequency changes between 26.5 and 13.6 megacycles/s). The investigations being carried out Cardl/2 using this machine include studies of nucleon and IT meson interactions with nuclei. 13 bevms of high energy particles are available. This phasotron is stated to give the highest  Scientific and technological principles of construction of proton accelerators at the United. Institute of Nuclear Studies. (Cont.) 24-5-11/25 energy protons, tiie Berkley syneiirocyclotron giving only L~50 MeV protons. b) Synchropiiasotron or synchrotron. This machine Uives 10 Bev protons. This is higher by a factor of 1.6 than the energy given by the corresponding U.S. machine (11). Here the magnetic field varies between 150 Oersted and 13000 Oe. and the protons are Given a preliminary linear acceleration to 8 MeV before being injected. Experiments planned for this machine include a search for antihyperous, studies on heavy mesons and antiprotons and other antiparticles. The energy of 10 Bev was reached in April, 1957. The macriine Card 2/2 is now be-ing set up for full use. A 50-60 Bev machine is now being planned (24). SUBMITTED: February 8, 1957. ASSOCIATION: United Institute of Nuclear Studies. (InsUitutb Yadernykh Issledovaniy). AVAILABLE~'  108-7-11/13 AUTHOR: Not given JaMf RhdiO. 11 TITLE: Allunion Scientific Sessions dedioatca to the Ds if (Vsesoyuznaya nauchnaya sessiya, posvyashchewyAyi& Dayn, rad Russ ian) pp 75-79 (U.S.S.R.) PERIODICAL RndlotaIrlinika, 1957m, Vol 12, Nr 7, ABSTRACT: About 2000 collaborators as well as representatives from foreign countries, am ng them also those of the American Society of Radio Engineers, participated in the session taking place from 20.to 253W 1957- The following participants spoke at the main session: A.D.FORTUSHEM on "Ways of technical development of electro telecomunication". ZE.A.GAYLISH on "Small parts for mass applioatiod'. G.D.GLEBOV on "Semiconductor devices". B.I.KATAIEV on "Electrical Telescopy". V.K.TKACH on "Use of radio methods in the research of patho- logical phenomena in organisms. A short report vies delivered by A.LJMTS-on "Putting into operation of the radiotechnical- and electron part of the synchrophasotron for 10 billion cloGtron-volt. card 1/2  N_c%-q-vVI_5 A22union Scientific Session, aeaicatea to the 'Day orRadio. Twelve sections viere working during the session, and a total of 175 lectures was held. The leotures are dealt with in Bbort wbich viere held under the supervisioon of V.A.KOTEL'ITIKOV in the section for information theory, under the supervision of G.S.TSZKIN in the section for semiconductor devices, under the supervision of A.N.KAZANTSEV in the section of raaiowave propaga- tion, and under the supervision of P.P.IIESXATSEV in the section f or racliotechnology. ASSOCIATION: Not given PRESMTED BY: SUMITTED: AVAILABLE- Library of Congress Card 212  1XMV3a% None given TITIE; 40 Y`ears o.' Soviet Badlo-Bngineerfng (40 let goret.7~-o7 rBbAo- PERIODICAL: Radiotekhnika, 1957, V01. 12, 11r 10, pp, 2 tlm3R) ABSTRACTs A short survey at the aevelaVmett of radio-engineering in the USSR is given. In 1910 there wao a decree on)the centralization of radio engineering. In the end of 1918t the first Soviet acien tific radio-center Nizhni-Novgorod was found. In 1922 a 12 07 radio station was built in Moscow, in 1926 one of 40 kV( and in 1929 one of 100 kW. On May 1, 1933 the 500 kYf station of the Comintern started operation. The individual inventions and mo- dernizations of various Soviet scientists are netioned. M.V. 3hu leykin proved the existence of 1&teral frequency bands in ampli- tude modulation. The problems of the theory of generation and modulation were worked out by M.A. Bonch-Bruyevich, A.L. Mints, I.G. Klyatskin a.o. The original system of "power adT1 lion ether" of I.Kh. Nevyazhkiy in 1936 offered the possibilityto build a powerful ultra-short-wave transmitter station. In the Card 1/2 course of the last yea:~s a number of generator-tubes for 250 kW  108-10-1/11 '40 Years Of Soviet Radio-Engineering with ring-shaped power leakage were developed. The Soviet scien tists are pioneers of the theory on the influence of disturbance on radio installations. The method of frequency manipulation was already proposed by A.L. Mints a.o. in 1927. The works of A.N. Shchukin led to the creation of tha system of twc-channel-fre- quency telgraphy without power loss and was first introduced by I.F. Agaponov in the USSR in 1947. In 1925 the system of co- lor-T.V. was worked out by N.A. Adamiyan.-Powerful multi-chamber magnetrons were invented. Shuleykin deduced the formula for the calculation of the propagation of waves over a plane a4face of the earth. He also invented the basic formulae for the passage of radio waves through the ionized stratum. In 1928 B.A. Vyedens kiy gave the quadratic formula for the propagation of ultra-shor waves within the range of visibility and in 1933-37 also the first diffraction formulae for ultra-short waves. Finally the artificial satellite was equipped with transmitters which trans. mitted regular signals. AVAIWLE: Library of Congress Card 2/2  KINTS. A.L. MMMMMi"Mft*- The greatest installation for =clear research. Vent. AIF'SSSR 27 no,6:25-32 Js 157. (KM 10:7) I. chf'en-korrespondent Aindeall nauk SSSR. (Atomic energy research)  I ftmr-, A L, AUTHdR: MMS,A.L., KAIAIIISKIYtH.K. 57-6-28/36 TItLEs -L`F`5-c_a_&_e_Fh_aaotron. (Kaskadnyy fazutron, Russian) PERIODICALs Zhurnal Tekhn. Piz., 19571 Vol 27, Nr 6v PP 1337 - 1346 (U.S.S.R.) A13STRACT: Pirst, the principle of a system with a multiple-electrode- aca6leration system of charged particles is described. The character- istic feature of this system is that the hiehest operation frequencies correspond to the Geometrically smallest electrode and that the acceleration system can be constructed without a frequency variator. A mode of operation with multiple control is obtained by means of the excitation of the band amplifiers of a series of single independent generators. The operat ion of such a system is shown which takes place in two cycles. ive groups of particles, which are in different acceleration*stages, are accelerated at the same time in the accelerator in consequence of its being subdivided into five ring-zones. Thus the intensity of the bundle of accelerated particles can be essentially increased. The following problems were investigatedt 1) The influence of edge effect on the configuration of the lines of force of the electric field at the front planes of the electrodes. 2) The in- Card 1/2 fluence of the motion of the "sagging" particles ofthe electric  Cascade Phaw tron. 57-6-28/36 field in the inner space of the electrodes in the case of open inner- and outer surfaces of the electrodes. 3) The influence of the radial and vertical components of the electric field in the space between the neighbouring semicircular electrodes on the stability of the bundle- 4) The influenoe of the transition of the particles from the zone of effect of the previous electrode to that of the following electrode on the intensity of the bundle. 5) The influence of the phaseahift under the hiGh-frequency voltages of the neighbouring electrodes in the assumed area of the transition of particles on the acceleration process Ithe experimental checkin(,; of the new system showed the poj;ibility to realize this system# It was possible to find an answer to some of these questions and to find out some interesting phononena of the cascade accelerator. (With 10 illustrationso, 2 tables, and 2 Slavic references) ASSOCIATION2 Not given PRESEPTED BY: SUBMITTED: 13-12-1956. AVAIL&BLE: Library of Congress Card 2/2  MINTS, A.L., akadenik Collective experience and Inventor's work (interviewing the academician A.L. )41nts). Izobr. I rats. no.9:11-12 S '58. (Inventions) (YaRA 11:10)  de 21 (1) SOV/107-59-3-9/52 AUTHOR: bTints, A.L., Academician* TITLE: Into the Interior of the Atom, Into Cosmic Space (V glubiny atoma, v prostory kosmosa) PERIODICAL: Radio, 1959, Nr 3, pp 11 - 12 (USSR) ABSTRACT: On the 100th anniversary of the birthday of A.S.Popov, the author reviews briefly the great achievements of Soviet scientists and engineers in nuclear research and radioastronomy obtained with the help of radio electronics. In this connection, he mentions the synchrophasotron of 10 billion electronvolt and the phasotron of 680 million electronvolt at the Ob"_ yedinennyy institut yadernykh issledovanii (United Institute for Nuclear Research), linear accelerators. In the concluding part of the article the author points to the great advance made by radio electronics in ob- taining data from satellites and apace rockets. Modern radio astronomy together with classical astronomy ob- Card 112 tained highly valuable scientific material required  21 (1) SOV/107-59-3-9/52 4 Into the Interior of the Atom, Into Cosmic Space for the development of modern cosmogonic theories. There is one photograph of A.L. Mints. * Hero of Socialist Labor, Laureateof the Gold Me- dal imeni A.S. Po~ov. Card 2/2 i  9( 05901 SOV/107-59-7-4/42 Academician, Laureate of the Lenin AUTHOR: Mi_p _award , Her.o of Socialist Labor TITLE: Strengthening the Ties Between ScJ3ntists and Radio Amateurs PERIODICAL: Radio, 1959, Nr 7, P 5 (USSR) ABSTRACT: The author reviews the role of the Soviet radio amateurs in the development of radio engineering. The activities of the radio amateurs were important for the development of VHF long-distance communication. Radio amateurs participated actively in observations of the Soviet earth satellites and space rockets. Fi- nally, the author states that scientific research in- stitutes must recruit their staffs from the ranks of the radio amateur designers. There is 1 photograph. Card 1/1  akBdomik, glavn" red*; BUR=, G.D., red.; VOLIPXHT, A.R., red.; G(ROU, I.Te., red.; GUTINKAMMe L.I., prof*# red.; GRCDM, 101,, red.; 1XMTKOTq N.D., red.; 2HIMIR, L*Aog red.; XATATNT. S.I.. red.; IMMM, M.S.. red.g SIMOV, V.I., red.; CHIGTTAKOV, X.I., red.; OSSRU. L.T.. red,izd-ve; KAHKOVEN, S.G., takhn.red. [One hundredth anniversary of the birth of A,S.Popov; Jubilee session) 100let so We rothdonlia A.B.Popova; lubileinsia sessits. Moskva, Izd-vo Akad.nauk SSSR, ig6o. 312 p. (MIRA 14:1) lo Nauchno-takhnicheskoye obshchestvo radiotekhniki I alektrosvyaxl. (Information theory)  SIFOROV, V.; BERG, A.Lr akademiki MINTS, A.L. Pakademik; KUGUSHEV, A.M.# doktor tekhn.nauk,. Ffof, ---------- Supporting the appeal of chemists. HTO 2 n0.508 W :60. I (MIRA 14:5) 1. Chlew-korrespondent Akadenii nauk SSSR,, predzedatell TSentrallnogo pravleniya nauchno-tekhnichookogo obahchostva radi6tekhniki i elektro- evyast in. A.31. Zftpoya (for Siforov). 2. Chleny'Wentraltnogo pravlenija nauebuo-teithnicheakogo obehahestva radlotekbni I I elektroxyrai in* A.S.Popova (for Beri,Mints)e 3, Predsodateil Mookovskogo oblastnogo pravleniya nauchno-tekbuichookogo obahchestva radiotekhniki i elektroavyazi im. A.S.FOAWa (for Kugwhev). (Technical societies) (Radio renearch)  POSPELOV,, P.N., akademik- 141NTS A.L., akademik; ALEKSAIIDROVi A.P., akademik; FZDOSEAi,-T.-i'.,--a~e;!i; LAVRENTIYEV, M.A., akademik; BERG, A.I., alrademik; F-7TRCfVSKIY, I.G., akad mi ; SIDM31WO, A.Y.; SKRYABIN, G.K., kand.biolog.nauk; KONSTANTINOV, B.F.,, akademik; GOLUNSKIY, S.A.; SHUBNIKOV, A.V., akademik; BWKHINTSEV, D.I.; DORODIIITSYII, A.A., akademik; KEDROV, B.M.; SISAKYAN, N.M., akademik Dimussing the reports. Vest. AN SSSR 31 no.12:49-66 D 161. (MIRA 14:12) 1. Chleiiv.-korrespondenty AN SSSR (for Sidorenko, Golunskiy,, Research)  BURSHTEYNj E.L.; VASILIYFVp A.A.; MINTS A L., akad,amikj PETUKHOV, V.A.; PXBCHINKIY,, S.M. High-energy cyclic accelerators witb a self-tuning magnetic field. Dokl. AN SWR W no.3-.590-592 N #61. (MIRA 14:11) (Particle accelerators) (Magnetic fields)  TIAKKMMM, T.T.1 KOM, b.001 MM I A L GOLIDISO L.L.; W.A.j Rummumalux, ogle; 4G79 U.K.; TASILIM, A.A.; TOMP11 OTO IPOA.; INIMIM D 0 W=fW,, V.S.; MALYSHEV, I.F.; STOLOTS AsK.; STMMI", *YIIMM, B.IG The 7 bev. proton Prib. i takh skep, 7 no.4:5-.9 Jl-ft 162. iMMU 164) 1. lutitut toorotiabokey i sksperbontallnoy giziki Gosu- darelt"naW kowitets po Ispol-vowwdyu atomor snargii SM, ,,.I"lldovat*lG*iyltwtitut olsktrofisichookoy appamtury Ak- "%jeuwSb kodtot4i po loe~lidvaniyu atamay anergil SM 1-ftaeUkWabookly lustitut Gosudarstvemogo kcsitsta pa, ispollsovanlyu atomay ellifrcu sssa. (Sywhrotron)  33231 S/089/62/012/002/002/013 r) 0 B102/B138 AUTHORS: BUrshteyn, E. L., Vasillyev, A. A.,_Mints, A.-L., Petukhov, V. A., Rubchinskiy, S. At. TITLE: Application of the principle of magnetic field self-correction in superhigh-energy cyclic accelerators PERIODICAL: Atomnaya energiya, v. 12, no. 2, 1962, Ill - 115 TEXT: The authors discuss the possibility of automatically controlling local magnetic field characteristics by using accelerated particle beam data. By this means the chamber cross section could be reduced, the beam energy increased and the accelerator structure simplified. As betatron and synchrotron oscillations are closely related to the chamber parameters, the self-correction of these oscillations is very important, Two main problems arise with betatron oscillations: Control of the equilibrium orbit, and stabilization of the number of oscillations. They are considered in the following. (A). A "smoothened" motion under the action of a constant focusing field is described in linear approximation by the equation X11 + Q2X = Ft(Q) without automatic control; x denotes the Card (0  33231 S/069/62/012/002/002/013 Application of the princiDle ... B102/B138 deviation from the chamber axis, Q the number of betatron oscillations Der revolution, Ft(9) is the perturbation, a periodic function of e (period 2n) which is slightly time-dependent. A correction function F k(9) = -L t (X 11+Q 2X) is introduced, so that with automatic control the equation reads XII + Q2x = Ft(9) - L,(x" + Q2x) or (1 + Lt)(x" + Q 2x) = FJO). A possible block diagram (Fig. 1) is proposed: The initial perturbation Ft(6) and the correction signal Fk() ) act an the controlled object (1), measuring unit (2) measures the x(6) deviations, computing unit (3) determines x" + Q 2x and (4) is the amplifying transducer with the characteristic operator L t and a time delay T 1of 1 msec: L t = k/(1 + pT Y=F X~ k Card 2/4  33231 S/089/62/012/002/002/013 Application of the principle... B102/B138 (B) The block diagram proposed for the stabilization of Q is the following: 10 3 -~_41 6 7 EDJ 1_!J 60 r4 9 Tv"M 5 The particle beam, i. e., the controlled object, (1),is excited by a pulsed field betatron oscillations x(g) with frequency Q = Qo t 0.25 + Aq, Q0 is an integral number and 4Q = 6Q + 6Qk, the perturbation plus the correcting signal. (2) is a signal electrode mixer, (3) is supplied with voltage from (9), (4) is an 1-f filter, (6) - mixer with filter, acting as voltage divider. (7) is a frequency detector and (8) the executive component. The parameters of se-f-corrected proton accelerators with 300 and 1000 Bev were calculated for small and large radii of curvature. There are 2 figures, 1 table, and 6 references: 2 Soviet and 4 non-Soviet. The four references to English-language publications read as follows: E, Courant Card 3/4  Application of the principle ... et al. Phys. Rev. 88, v. 1, 1956, p. 395; A. of betatron oscillations Geneva, 1958; M. Barton, 2 1 S 089 62/012/002/002/013 B 02 B138 1190, 1952; K. Johnsen, C. Schoch, Theory of linear in alternating gradient Rev. Sci. Instrum. 31, SUBMITTED: December 6, 1961 Schmelzer. Symposium CERN. and non-linear perturbations synchrotrons. CERN, 1290 (1960). Card 4/4  14- S/089/6~/012/006/003/019 4/, B102/B104 AUTHORS: Vladimirskiy, V. V., Komarg Ye. G.# Golldin, L. L., Monoszon, N. A., Rubchinskiyj S. M., Tarasov, Ye. K., Vasillyev, A. A.,Vodoplyanovi F. A.t Koshkarev, D. G., Kuryshev, V. S., Malyshev, I.,F.I,Stolov, A. M., Strelltsov, 11. S., Yakovlevj B. M. TITLE: The design of the 7-Bev proton synchrotron PERIODICAL: Atomnaya energiya, v. 12, no. 6, 1962~ 472-474 TEXT: The history of the first Soviet cyclic accelerator with rigid focusing is briefly described, and the most importani data on its planning and operation are presented. Planning was started in 1953. The parameters of this proton accelerator, the energy of which exceeds the antinucle-on V~ production thresholdp were so chosen that the dependence of the orbital circumference on the particle momenta was completely compensated. This was achieved by employing 14 quadrupole magnets with orbits of negative curvatures Technical data: output currentp 1010 protons/pulee; maximum field strength, 8475 0e; length of equilibrium orbitp 251.2 ml radius of Card 1/2  S/08 62/012/006/003/019 The design of the 7-Bev B1 02YBI 04 curvature of the trajectories in the bending magnets (C), 31 m, and in the compensation magnets (X),* co; number of magnetic sectors, 98C + 14X; gap length between the C-magnets, 304-0 mm; gap length around the X-magnetat 417-5 mm; index of the decrease in field st'rength, 460; internal height and width of the chamber, 80 and 110 mm, respectively; number of betatron oscillations per revolutiong 12-75f and per periodic elementl 0.91; number of magneto pe~? periodic element, 8; total critical energyf 19.2 Bevi. maximum-.deviation of the periodic orbit with 1001/a deviation of the momentum from the equilibrium momentum, 1-47 mi rate of energy increase per revolution, 4-3 kev; duration of one cycle, 1-55 sec; 10-12 cycles/minj particle revolution fre uency at the beginning of the cycle, 0.11 Mc/sec, and at the end, 1.19 MeNec; frequency of synchrocyclotron oscillations, 3600 and 130 CPS; weight of the electromagnet steelp 2500 tons; maximum, power of the supply system, 25 Mw; Van de Graaff injector (particle energy, 3.8 Yievi field strength 90 oe); admissible deviations from field strength and field gradients ,,10-3; deviations at the chamber edge due to -11 2 nonlinearities, 0- 1 admisgible frequency deviation of the accelerating Z ~.eld at the beginning of the cyclev 10-39 and at the end, 5-1o-5. There .L are 1 figure and I table. SUBMITTED: March 12, 1962 Card 2/2  MINTS, Alskmandr L'yovich akademikj GESSEN, L.V., red. izd-va; GOLUB', 11 tekhn. red. (Radio electronieslHadioslektronika; kratkais. istoriia i do- atisheniia. Moskva, Isd-yo Akad. asuk SSSR, 1963. 84 p. (MIRA 16:2) (Radio) (Electronics)  L 43084-65- EV.IT.z)/E PA (W) 2/iWi (2) 2- GS.__ ACCUSIG-RR: ATS007914 S/0000/64/OVO/000/0067/0074 AUTHOR: Surshteyn, E. L.; Vasillyev, A. A*; Mints, A. Le TITLE-. A cybernetic 1000-Cev accelerator .04. bn ~94R! Trudy. SOURCEi international Conference on High Energy Accelerators. Du a, Moscow, Atoihizdati'. -1~64, 67-74 TOPIC TAGSi Ugh eu*%IW accelerator, particle beam, control system ABSTRACT: The limiting energy of resonance accelerators, which has been enhanced as high as possible by application of the two principles of autophasing (developed a a- d E. McMillan) and strong focusing (developed by E. Courant and by V. 1. Veksl r n others), can be raised further only by still stricter tolerances on the various d,3sijzn elements of the accelerator. In super-high energy accelerators the acceler-  -7 L--7-: L 43084~65~ ACCESSION NRs ATS007914 parameters of three versions of a 1000-Gev- accelerator. Concrete data are presentec -on 'a ProJected automatically-controlled accelerator of maximum energy of 200 Gev, ..;wi-th.inJection-,eners~i-,of--200- Hev and total chamber apertum of-5.4 x 3.6 cm. At the  it~ ons per ual ony-, 'Proper 'att~acy nicess .ary for pick-up electrode measurements-Lo determined n xzsnd~the ir-7 do Mi-ido-n fie lonwal Oista M', v ii*_ wat PI~4, --I 7- 7? by the accuracy do  "s 430a4...,10 .',AT5G0791k- Accicl Va  '-,6157-6!;-:------~zNT(ci)/Ef4r(~i)/EWP(v)/EPA(w)-2/EWP(k)/EW.P-(h A(m)- /EWP(I) Pt_?/Pf_C/ 2 S/0000/64/000/000/0217/0221 ACCESSI12i9 ATS007920 AUTHOR: Batskikh, G. I.; ~a .Ajilytvo A. L. L; Hints, A. L.; i Sosenskiy,11-L. _T_1t1Z-!-- -De_sig6'_f6Z4i-i ti ontroudd z. 60 CE:' on a-- i t 6' n'f -a' ien ce'' o ii 94 ij~LEpRrgy'Actelerators. Dubna 3. Trudy. t Hoscow, Aiomizdat, 19640 217-221 MPIC TAGS r-_,-high~.-ene~rjy- -injector, aut6mitic control te~, cyberneti SYW system wacce erator- re n a mo I o a 1000-Gev acceleritor L. Burshteyn et al., DAN SSSR, 141, 590 [19611; present collection, p. 67). It proposes methods for the solution of two problems: (1) the experimental investiga- tion of the system for autotMtically controlling the parameters determining the betatron motion of the accelerated particles; and (2) the construction of an accel- er,itor that has (a) coMaratively free tolerances on the accuracy governing the  I n L 461-15 7-65 IACCESSION XR: ATS007920 3. 'determination pO ameters governing the automatically controlled accelerator -a neces~sary conditioirwa that thd frese betatron and synchrotron oscillations should be sufficiently small. Decreasing the shift of the equilibrium orbit from the chat, r axis by means of a system for automatically controlling the first revolution and the equilibrium orbit permits a considerable decrease in the aperture of the vacuum chamber. The authors discuss in some detail such control and the vacuum system. For this reason the stiffness of focusing should he increased as much as possible; i.e., the numbe--" Q of betatron oscillationa per revolution should be increa3ed, but suchlincrease is limited by design conditions such as actually -,magn4tic-Iield.-gradjents -ar-d. minimun- acceptable, di:,tances between the fit 0~ 0. -M -me The-diamettr-of - the - beam -the -accelerator chamber fdi- ,an injection energy of I Hev from a Van de Graaf accelerator (practical emittance 30 mrad-m) Is about 8 mm. The maximum aWlitude of the synchrotron oscillations 'which corresponds to an energy increment of 2 kev is 2 mm. The first revolution is t.-eated for. a con3tant m3gnetic field at injection equal to Si= 250 gauss. For a  mem-squar -snirvor-The ragnets:-O:r--'--p --mco:md7- zeftw-"h thefflel r.-le tolwated mean-squam defleCtion of the bem equal-to-I v a. Card 2/4  on- re-vacuum c r -hamber neces I iti ,:,`-TheW6jr6:PdO$8gc 6U .tho, beam thr,014,47, sitit6s-.an-automatie--Syatem---to~,-cqn,tl~ollini-t~e first revolution-, hi-ch.: tM illithors w discuss In some detail. The automatte control of the u~ a' n-'c- yof~zbbtatrcn oscil- lations of the center of gravity of the bunch of particles is also discussed together with the generation of the accelerating potential, the injector and input system, the electromagnet and its power supply, and the vacuum system. "Participanto -the -planhing..-of : the-~accelerator were 1# A. -Kar Yu. &. Vasina, V. V. Vladi hchenko-Lutsen-ko samery fdr4us Ya. 1. KT 8--~j7* -an-d- V. L- D-- -d -- B-thdikka -als67' Basalaveva. V.- V. Kura cloy. The author expresses hi to his co-workers at the Radio Engineering Institute, Academy of Sciences, USSR: E. L. Bgrghteyn, ~. M. RqbcMn*iy# T. A. Vodc2!yanov1 V. F. Semenov, A. A. Kuzlmin,' Yu. M. Lebeday-Krasin, A. A. Zhdanko, and M. I. Basalayov. namely for -t-h-e-rr-pirFff6i- pation in the discussion of the problems touched upon in this report." Orig. art. ASS~3CrATIOKC~~~!6iikWi-che'skit---inttitut--AN-~SSSit~(Radio~-Enginetring InatituteW -SSSR) -_0 J SUR-CODE.-I; -7 -:--7  :L46157 5~,: 7  KOTOV, V.I., kand.fiz.-matem.nauk (Dubna); VEKSLER., V.I.P akademik; VLADINIRSKIYP V.V.; SETVAK, X., doktor (Chokhoslovakiya); HMS-, akad !- e ik; DZHX- IEPOV, V.P., prof.; VALITER, A.K., prof.; KOLOMENSKIY, A.A., prof. Accelerators of the future; articles and speeches of the participants in the international conference in Dubno. Priroda 53 no.1:44-56 164. (MIRA 17:2) 1. Chlen-korrespondent AN SSSR (for Vladimirskiy).  L 43088-65. ~VIT(4 ~PA(~)-~2~/E (A(m It2_, _?ab:~10 PIL-7 L 1ACCESSION NRt ATS007918 6/0000164/000/000/0167/~20L AMOR: , Vladimirs kiv. V. V.; Gql,~4Ln,, _0.! _ ".tj KoohkaMv, Yahovbpw, a. M,-.GusLov, G. K.; Komar, Ye. ikelL V. Vj KgX~ ~vr. F ~, Monoszon, 11. A. * Popko-vi,ch,. A. V,.k T4tqv.IY. Agi .YPAWVkO_M,_1t_A.!#* Kuz,mins-A.-A.; Phinskly, a As R." ~V~Y-_ _V-A - ; Z"4.1 ~Ov, V. M. r. Z_ TITLE% 60-70 Gov Proton* Synchrotron SOUX6 International *.on !!_Energy..Acc*l ratovs. Dubna, 1963. Traft. Moscow, Atoazat, i4C4, 197-201 JOPIC TAGS: high energy accelerator, synchrotron JABSTRhCT; A 60-70 Gov proton synchrotron with strcmS focusing is bel.ag construct44 !not far.from Serpukhov, as has been reported earlie r (e.g. "Research Distituto few Electro.Phyeical Equipment, Leningrad," in Proceedings of the International Confa- ;*nco'on High Energy Accelerators' and rnstrumentation, (CERK, 1959), p. 373)o The . 1paveent report desdribis parameter changes and imp... nts In precLelca atmeturaL Ichara,,t.ristics of'the accolimtors and the present stato of construction In mid-, 1963., The parameters of 'ths'mapst we presented. In * table. A smil chugs Is the original plane peraLtted an Increase in the length of a -part of the free Cwd. - 1/4  L 43088-65 ACCESSION UR: AT5007918 sections, some of which are utilized for Input and exit of beass. The super-pdriod design Is described. The lengthened sections were obtained as a consequence of ahortenip.% the focusing and defocuoing blocks by 112 cm. The focusing properties of the ragnatic channel were diminished consequently$ but very little; and the limiting. energy was lowered by 2-3 GeV. The construction of the magnet to described Each of the magnetic blocks Is divided lengthwise into 5 sub-blocks which are enveloped by the common -inding. These sub-blocks consist of laminar two-Willimets silicon steel. These steel sheets were stamped out without subsequent mechanical working, and were subjected to sorting and intermixing in order to smooth out their magnetic charactorl a tics. The sub-blocks are constricted by lateral welded plates without adhesion. Provision was made for windings-on the poles In order to cormot for pole nonlinearlty and for variations in the drop reading. These windings make it possible to introduce artificial quadratic (square) nonlLnearLty that changes* the dependence of the frequency of transverse oacillation~ during a pulse. In rr,ier to correct for straying of the residual field. provision has been mado for windings on the yoke In 3aries with the main winding. The sub-blocks must undo *r5o calibration on a wagnet stand in order-to make cormeti.ag systess sore Precise and to determine the most convenient disposition of the sub-blocks aliong the ring. IM winding of the electrov~agnet Is made of aluminum busbare with ball6v eons hr. cooling water. '.The length'of the busbar Is seletatid tbet AlmWe would be 20 Card 214  L 4308E1-65 1ACCESSION RR: ATS007918 :welded joints inside the coils. The winding consists of 4 sections, two of which are dispoied on the upper pole and two on the lower. The most important character- i istics of the electromagnet and power supply system we described in a table. Also described are the vacuum chamber and accelerating field (obtained by 53 paired Iresonators with ferrite rings, which operate at the 30-th harmonic of revolution andtSive accelerating potential of 350 kilovolts). The ring tunnel and the gens"I arr~;gemcnt of the accelerator are shown in f'Igures and described. The building for the Injector and portions of the ring tunnel from the injector to the experl- mantal'room havo been completed In the main and are ready for installation of equipmont. This room, in the form of a single-aisle building without Lntern4l supports, permits one to work on beams brought into the inner an4 outer sides. A 90-meter arch covers this room. whose overall length in 150 meters. Provision have'been mado for a second experimental room at the southwest part of the ring. Orig. has 4 figures. 2 tables. ASSOCIATION% Institute teoreticheskoy i akeperimentallnoy fiaLki GVAE SSGR Qq_qXituta of Theoretical w,d Experimental Phveles, GM ISSR). (2) Vauchna- inaledovatellskiy inatitut.4laktrofisichookoy,appar&t=7 lbani D. V. leftemove GKAE SSSR (Scientifia Research Institute of 6260.  07 L 43M-65 ACCESSION KRt AT5007916 (3) Radiatekhnicheakly inatitut*'AN SSSR (4di5kyn Ineerl tuto, Acadmw of Sciancas SSSR). (4) G09UdAiVtlftWyy P%WektnYY ln~ltltut W;utijt (state plamim InsfliUFe-,-= SSSR). SUDKEMDs 2GHaYG4 I ENC16t 00 us comi no NO REP SM 002 OTHMI OOL j: Cwd 4/4  ACC NRt AP6036721 SOURCE CODE: UR/0030/66/000/011/0009/0013 AUTHORt Mints, A. L. (Academician) ORG: none TITIX: High energy particle accelerators 4 SOURCE: AN SSSR. Vestnik, no. 11, 1966, 9-13 TOPIC TAGS; Gev accelerator, focusing accelerator, proton accelerator, cybernetics, computer application ABSTRACT: A general report an work performed at the Radiotechnical Ins-itute in Moscow is given. The report describes in broad terms an operational principle for strong focusing, high (or ultra-high) energy accelerators. The authors named it the #?cybernetic principle". It consists of the automatic correction and regulation of the beam trajectory in such a way that no new instabilities appear. The operational scheme is the following. A booster accelerator brings the proton beam to 18 Gev. Then, 18 Gev protons are injected into a strong focusing accelerator with a 20 kin orbital lencth. With the help of a special, -automatically controlled system, the magnetic field of the accelerator is corrected at the injection time for the maximum acceptance of the beam in a chamber which has a diameter of 5-7 cm. The protons are now accele-1 rated and the magnetic field is accordingly altered. The deviation of the accelerated- [Co.rd 1112 - UDC: 539-lo?.6  ACC NRt AP6036721 beam from its equilibrium orbit is detected, "computerized" (this is where the cyber- netics enters), and the beam orbit is corrected by specially designed magnetic sys- tems. This is, of course, a problem of high speed electronics. It is important that the number of betatron oscillations remain constant during the operation of such an accelerator. A table gives the main design features of the three proposed ultra-high energy accelerators: 1000 Gev.(USSR), 330 Gev (CERN) and 200 Gev (USA). A model ac- celerator for 1 Gev is being built in order to study the automatic regulatior- of beam parameters. The beam intensity is .1010 protons/pulses and v = 6.5. The ultra- high energy accelerator project includes the design of a 800 Mev injector, a IS Gev booster and the principal 1000 Gev accelerator. Orig. art. has: 1 table. SUB CODE: 20, 09/ SUBM DATE: none Card 2  HINTS, A. J1. 57/49T80 ma/mbaclue - Neuritis, natilpis wor/mme he Medicine - Drugs) Toxicity "Toxic Polyneuritis From Medication (Bulrommmides),,' N. A. Goyseyev, A. Is. Hints, First wourol Cllnlc,, Kiev SO. Res Inst of Psychoneurol, 2 2/3 yp "Teri,p Arkbivo vol zz, No 6 Use of sulfoumide preparation@ Is so strictly controlled by USSR doctors that cases or poisoning frcm then an rarely found. Toxic. polynewritis does not occur during Initial stage of Uvetweat, but in later stage or after trestpent,,and is difficult to diagnose. - Bmtoma include motor disturbances In the foot and vr1st, eztendln to adjaceat parts In serious cases.  YUINTS, -~. Y-q 32801. Variant:T -rip. All-ov zpfl.elsii. Trudy KI:.-v-91~. N~oich. .- isqlc~ psil-hovevrol. In-ta, :. XII, l?49, s- 141-49 SO: Letapis' ZhLirnallnykb Statey, Vol. 44, l'oskva, 1949  MINTS, A.YA.- Axperimentel and clinical observations of the convulsive components of dlencephallc attacks [with sunisary in Buglish], Fistol.thure CUkr.1 3 no.6:54-63 D 157. (KIRA 11:2) 1, Akademlya wdtchnykh neuk SM, grups. yakoyu keruye d1yonly chlen AHN SM B.X.Nen'kovs'kty,Xiiv) WILIPSY)  MINTS@ Ilya., kand.med.nsuk; KIRICHINSKAYA, I.A.. kAnd.med.nAuk Clinical RgDeCtO of arsenic polyneuritis. VrAch.delo no.2:119-142 F 158. (MIRA 11:3) 1. Akademlyn meditainakikh nauk SSSR i knfedra nervnykh bolezney Kiyevskogo meditainskogo inatituta (rukovoditell grnDpy AMN i zav. kefedroy-akad. AMN SSSR B.N.Manlkovskly) (NMOUS SYSTEM--DISUSES) (ARSENIC-PHYSIOLOGICAL XFFZT) y  MINTS, A.Ya.. kand.med.naWc Vegetative and visceral manifestations of the diencephalic epileptic syndrome. Vop. klin, nevr. i psikh. no.2:177-190 158. (EPILEPSY) (ENCEPHALITIS) (MIRA 14:10)  MINTS I A.Ya., kand..med.nauki KUCHBROVA, L.L. Carbohydrate metabolism in infla=ations of the dience =n Vop. klin. nevr. i poikh. no.2:216-224 158' fl 0 i4:10) (CARBOHYDRATE NETABOLISM) ZDIEZIOPUM14)  A V~ ! I A - ~ ZAVILYANSKIY, L. kand.med.neuk, MINTS, A. (Kiyev) Republic plenary session of the Society of Neurapathologists Pnd Poychintrists, devoted to the 40th anniveroary of the Grent Octobor Revolution. Trach.delo no.3025 K058 (KIRA 11:5) (UKELA nm--mmoLoGY) dw  KMS, A. .. )tandemed*nauk, OSTILOVSKIY. M. I., saslyzhonnyy vrach USSR. polkovnikmed. slushby; OUR. R.K.. ordinator Takayashils disease (par,.,.rteritis of vessels originating in the aorta) Vrach,delo U0,91933-938 3158 1 (MM 11:10) I' 111nike nervuyih bolezney (nauchn" rakoroditell-deyetv, chlen ;;6. prof. 3.N. NmIkovskly) Kiyevskogo meditsinskogo Instituta I ObmuAhnoy Voyennyy gospitall. (ARTZRIBS-DISIASES)  N*V*, BTJRLYAyp GoS* (Kiyov) KMS. A-Ya.. kw%inedonauk- v PMK* Cerebral genesis of exoPhathalmOSS' 111mmed. 36 n0.9.35-40 S'58 (KIRA 21210) 1. Is AMR SSSR i kafedr7 nervnykh boleznev Kiyevs*,cOgO weditsinskogo institute imeni A-A, Pogomolftma (rukovoditell grUPP7 AM SSSR i sov. kafedroy - deVetvitellny7 chlen ANN SSSR B.N. Kanikovskiy). (11OPHTHAMOSo etiol. & pathogen. brain dis. (Rue)) (BRAIN. dia. causing "Ophthalmos (Run))  KMS-O~'_Aeya. Nareolepay, entaplexy & diencepholic epilepsy (with sU=MAr7 in French]. Zhur.nevr. I poikh. 58 no.4:410-417 t58. (KIRA 11:5) 1. AkRdemiya meditsinakIM nauk SSSR (rukovuditelIgmppy -deyetvitellny chlen AKK SSSR B.N. Nanlkovokly), Klyev. (DIENCEPRAW1. din. manifesting so & differentiated from nArcolepsy & catnplexj (Rua)) (SIZZP DISORMW. nPreolopsy. caused by & differentinted from diencephRlic lesions (Rua)) (CATAPLEIr caused by & differentinted from diencephAliC lesions (Rua)) (r'"IIEPST, differ, diagi narcolopsy & cataplexy from diencephalle epilepsy (Rua))  HINTS, A.7a., lmnd.med.nauk (Kiyev) Combined diseases of the blood vessels of the heart and brain. Trach. delo no.8:803-809 Ac 159. (MIRA 12:12) 1. Otdelenlye vozrantnykh izmeneniy nervnoy sistemy (sav. - deyetv. ehlen ANN SSSR, prof. B.N. Haulkovskiy) Institute. geroutologii I ekqmrimentalluoy patologii AM SSM (WDIOYASOTITAR STSTX*--DISMASES) (BRAIM-DISIUSES)  MAKARCHENKOI A.F., prof., otv. red.; KULIKOVSM t A.G.p kand. med * uauk, red.; LITVAKy L.B.p prof.,, red.; 14IRTOVSKrY, N.V, prof., red.[deceased); MINTS .. kand med. nauk, red.; SLONIMSKAYA, V.M.., prof.., red.; SA- ..I, A U VENKO., S.N., prof.p red.; FRUMKIN, Ya.P.p prof... red.; SHAROVSM, S.N.9 prof., red. (deceased]; BYKOV, N.Mo, tekbn. red, 0 (Problems in clinical neivologyand psychiatry] Problevy klinicheskoi nevrologii i palkhintril. Kiovp Oos.med.izd-vo, USSR, 1961. 308 P- (MIRA 34:12) 1. Ukrainskoye respublikanskoye obahcbeetvo nevropatologov i paikhiatroy. (NERVOVS SYSTEM-DISEASES) (MENTAL ILLNESS)  -KITS.-A-Ya.; GORBACH, N. L. Sow ebaracteriatics of the cerebral electrical activity in the proceas of aping.in athorosclarogde. Zhur. nftr. i palkir. 64 no.2z2l9-224 164- (MIRA 17s 5) 11 1, Oftelenip Yozrastafth ismneniy nermay sistftq (say&- du7ushchiy - prof. B.N. Manlkovskiy) Inatituta garontologii AMN SSSR i otdol nevrologii i neyrofiziologii (rukovoditell Prof. A.F. Makarchanko) Instituta fisiologii im. A.A. Bogemolftea AN UkrSSR,, Kiyev.  MINTS . A. Ya. Some characteristics of the development and course of atheroscle- rotic lesions of the brain in elderly and senile age. Vop. geron. i geriat. 4:189-196 165. (MIRA 18:5) 1. Institut gerontologii AMN SSSR, Kiyev.  BLEYKHER, 'I"UNTS A.Ya. Disoru,era oft memory In athercsclercsi2 of cerebral vessela. Trudy Gos. nauch.-issl. ins't. psikb. 43;172-.178 165. (141PA 18:9) 1. Laboratoriya eksperimentalli~oy patopsikhologii Kiyevskoy psikhonevrc1cgiuhPsk*y bollnillsy imeni ak-ademika Pavlova (glavnyy vr-a,-h - zasluzhenriyy vfach UkrSSR P.N.Lepekliov; nauchnyy rukcv,,3dite.1 I .. prof. Ya.P.Fr-L1,Tk'1.n) i Institut gerontologLi P114 SSSR (direktor - t:hler,-k,,xrvspcnd(,,nt At-III SSSR prof. OMI.Chnbotarev).  MINTS, A.Ya.; LITOVCIIENKO, S.V.; TITARENKO, M.P. State of the vegetative nervous system in elderly and senile persons; clinical physiological study of neurovascular reactions. Fiziol. zhur. [Uk-,.l 11 -o.6:786-795 N-D 165. (MIRA 19:1) 1. Otdeleniye vozrastnykh izmeneniy nervnoy sistemy Institute- gerontologii AMN SSSR, Kiyev. Submitted April 14, 1965. N. .9 . f,  SOV/58-59-5--j,-,73 Translation from: Referativnyy Zhurnal, Fizika, 1959, Nr 5, P 178 (USSR) AUTHOR: Mints, A.Z. TITLE: Vacuum Measurement of 35LK2B Kinescopes Under Working Conditions PERIODICAL: Tyazh. prom-st' Podmoskov'ya (Moak. obl. sovnarkhoz), 1958, Nr 5, pp 26 - 30 ABSTRACT: The article has not been reviewed. Card 1/1  S'., BARMINIKOV., P.; MINTS, B.,- STREWVA, A. A new shape has been mastered. Metallurg 6 no.1203-34 D 161. (YMA 14:11) lo Omutninskiy metallurgichookiy zavod, (Rolling(Meta:Lwork))  .MINTS, Branislav. -- - -- - Price and valve In a socialist economy. Top. skon. no.1:90-100 J4 1 -0. (MM 11:3) 1, 111rektor Instituta ekonomiki FbIlskoy 1krodnoy 11sepublild. (Prices) (Valve)  SIRYABINq N.P.; MFMVI G.K.; EDCBZM, I.M.; BkR7SHNINDV, P.A.; ~ ANANIIN, K*I*j SHXM,, I*M*j IGM,*B*Ko; PASTM"t YOfi.t,%MMN, P.P. I Greater efficisil-cy In grooving and the mechanization of rolling an the 5W and 280 -411o. Metallurg 6 no.22:23-27 D 062. (K= u: n) 1. Oantninskiy metallurgicheskiy savod i"Umllskiy institut chernykh metallov. , (Rolling mills-Equipant, and supplies)  HINTS 9 B. M. MR,redicine - Bacteriology Medielm - Miezooz am Apr 49 "Microflora on a Burned Surface." P. N. Kashkin, Ye. G. Kashkina, B. M. Mints, N. S. Neyeloval 14mingrad Sci Ran Inst of First Aid,, 8 113 pp "Dirurgi7am No 4 Due to unfavorable influence of microorganima on healing processes and interrelations of the microflora in air and burned areang air of surgical departments treating burns aruat be kept free of pathogenic and saprophytic microorganims and maintain a higher degree of asepsis than in any other mWgical d epartment. PA 45/49T84  mms, B. S. 4440, Indikatory urovnya v radiaveshchanii. M,, svayazlizdat, 1934. 36S.5 chert. 22SKO (M-Vo nyazi sser. takhn. upr. lektoU potekhnike snazi). 5.000 ekz. ir.- (54-n8) P 621.396.712+621.396.08 SO: Ddzhnaya Intopial, Vol* 1, 1955  107-5--38/54 AUTHOR: Itint s_,B. TITLE: A-F Push-Pull Amplifier (Drukhtaktno-parallellnyy usilitell) PERIODICAL: RAdio, 1956,Nr5, pp. 49-51 (USSR) ABSTRACT: A popular description of the theory, design, and construction of the a-f push-pull amplifier suitable for redlo-hap needs. Class AB and B operations are considered. A now circuit is miggested In which the output transformer has one secondary and two primaries; one of the primaries is connected In the plate circuit as usual while the other primary to connected In the cathode circuit acting cumulatively with the first primary. The secondary isplaced between the two primaries. A lower magnetic dispersion and harmonic distortion are claimed as advantages. Detailed instructions for amateur work are given. Practical design formulas are also given. There are 5 figs In the article. AVATT-ART : Library of Congress Card 1/1  MINS.B.S., Lushener The protection of low-frequency ampliflers from radio frequency interferences (From: 'Radio and Television News,9 no.6 and no.7, 1954.) Vest.sviazi 15 no-8:30-32 Ag'55. (MMA 8:12) (Radio--Interference)  MIETS, B.S. Control of radio broadcasts by an indicator of average values and an Indicator of peak values. Blakronvias' 10 no-4:39-" Ap 156. (KM 9:7) (Radio--transmitter~ and transmission)  A UTHOR: Mints, B.S., Engineer SOV/111-58-3-10/29 ------------- TITLE: A Standardized Level Indicator Is Required for Broadcasting (Nuzhen yedinyy indikator urovnya dlya radioveshchaniya) PERIODICAL: Vestnik svyazi, 1958, Hr 3, P 10 - 11 (USSR) ABSTRACT: The author pre3ents hie views on the selection of the most suitable integration time fdr lovel indicatorm to be iined at radio stations. Ile states that the types available in the USSR, "1-53", "RI-55", are not adequate. In this con- nection, he mentions the experience made with such instru- ments in the US and various other countries. There is one table. Card 1/1  AUTHOR: Mints, B.S., Engineer SOV-111-58-9-7/30 TITLE: A Ne Mle od of Automatic Control for Radio Broadcasting Channels(Novyy sposob avtomaticheskogo kontrolya radio- veshchatellnykh traktov) PERIODICAL: Vestnik svyazi, 1958, Nr 9, pp B - 10 (USSR) ABSTRACT: A new method of automatic control of broadcasting cnannvIz, described by F. Enkel in the March, 1958, issue of "Neue Technische Zeitschrift", is reviewed. The method consists in a system of frequency-response control of the channel's transmission factor during operation, checking the noise level in the intervals between useful modulation and a check on non-linearity. The operating principles of the syster., block lay-out of the apparatus and technical cha- racteristics are given. There are: 1 German reference, 4 block diagrams and 2 graphs. 1. Radio broadcasting--Control systems Card 1/1  XM We need a unified level indicator for radlobroRdeasting, Yest.svinsi 18 no.3:10-11 Rr 158. (MIRA 11:4) (RRdiobroadcasting) .00  I(INTS, 3,8~01nsh, Al&'mtic Indicator of the Iledting value of the harsonle coefficiest. V#A. owlast 20 no.g:I&U S'60. (KMA 13: 10) (11adlo-Trammitters and tonselseles)  MINTS, B.S., inzh. Contat-'-ess automatic audio frequency voltage regulator at the outpu6 of a level comparator. Vest. sviazi 22 no.2:7-8 F 962. (MIRA 15:2) (Radio--Transmitters and transmission)  624 00 9: .00 00 a '.1 I'M P. 41 Gftpwto. it. v. miul.~ ull". MA"l. (k.l.m. Ims. AlivictAte h4wU4jjjjj-jj-v-rrs of dil.1 tll,,_ :0 Irlial arlp hrated the ck-%. furiwv. This livrv,111% frihil cif vaukuss d,.,l ad- the graphile wilcl, be fu,,W, is w8rd. LI u _Aq t" -11 1 1 1 1 to 'A " It 0 0 0 004000000 0 4 ce 9 00 '00 10 clef see -;S0 wool a vi~Tlwk %Now d it 0 so 140 0001000000 @see** 0 000000 00  11 6 1 0 11 if 11 IF U ill Ill It IF to ill a r a a 0 r m I a 1. . It (LAL-1 -r- (L. IL I- _~of, vw~, an nip its lip i--WQ ly-xr~_ IF a -b-% _JL_ 0 0 ~1111 011 00 111"tt"O' 44- Cbmaigile In tub" ad I WlAa tit* foractowit Cm! ~ so iovitlam- Nit. Cd tisallon via. al. .4 $oil .14 ~ a slinjar.1 in %al.,c I 105,-St. invtstigAird prelln. 4 graphite fruits vatiat" clIPI-S. shtmed that the IlhY*il*%)Whtln. Pft4wftks W the materials, surh as peffol"In CiAr. anthfawrier, cake owild poloduct are greatly infiutnctd by the quAUty of the 8 their 1111119. V1111111r, Were Iffixed with a biewler AM nustcr" used and hy their a%h cuntcut. In the p1mcow formed Into rill-t-4 or Ofifeg, Ihm heated at Minus I of graphilizatians file phyl.. protk-tfic, (of the product lemp. for vaiiinvo Irnallis of linw. 11w indurmit tit ChAngrWilbilivictop. '11,1ni'lly "fill tilt -p. or.. itwitA...k. In Ilw range of 2,1111) I.. "hill, On kilvil"ll" .11. to. 911.1 it..'. tond InIl-'AW. wltul The Increase to *11roillb, 1u mi'll r d l *0 100 -00 .00 : ; l 1:,a W title so tilt 11411SAliUll U( Carbide 141tiCt in IIIV n y 4irrial. In priftillet. Anwir at EAW a 2nil ilign) Its tilt ittrngth and a 4ecrrww in the **'h cussitut ismi of 11W Ap. see -31 0 ee a a Xr. oco-or 1xviouse of the brmkdown of the carbide 4(tirt. Antlinwite, or mists. of equal pArts of anthracite and twir'll'unt coke. can lor used mi~ Ittaictw Ple the pfrPa. of f(rcophife if Ow fired frinn it'll Unit Coolciortl at 171W 1%90)' Ileffol. not l"Plir 1. file- tmi,$ low'-fi&I al all levip.. In life fault- 4.1 14111) WON)% 4'dlkr Hl'%I; and 1111111fild'ilt ohird. Olitirm 44 fortab abolild not Iie l,frwnl in any W the floater" pirtild. al ICIUP. AIJQVr =111)* IMCSUW IIWY impair the strength wW r1w.cuold.of the graphite product. Tile pmwwt of W9 vWx is undermiratile, becauie it de- : zoo 0 eream the firentill, Of l1w malr1W. 14 oftles"W". to 94. lme4~in L v34%. 113.00 Islas. to as., dili: 811931 04 0-T too Ditto 104 11114111 elig lion 1111 Won I ll. took I S NO Fill 0 0 6 0 Ole 0 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 oils 0 0 0 0 & 0 0 * 0 0 0 0 * 0 0 0 0 * 11111 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 411 0 0 4111 4111 0 :,* a bee 304  Will w. to 0~ i_ A 1.0 0" 10 f - 11 1. ). 0 it )v 0 IS 119014" is if 0 X H 'a s X'm a a a 11 m a m It k v a 0 IL 11 t_j_j_ I a v L-M ~1111A.111_11 t- 1, 4 _,v -~Uvlrlz_w 9 T~o 00. A m*IMA W oUssimind sil"Utooloss wt k1ols 00 -if "googth. It. V. Allill.. 111seloo.vis A101,41. IVW, Nit 4. that addit. W bawl flualittlits, C A Fe or Forth producrs glimtro(leo of hish stmuth withistit 811~ a Ihr mi-ev-ity 4 fitirly Irtiltotfiring the C raw ruatirrial, ' l1wor Illatelialt, virm sitOltrotti1r. twittilostint etske. 1411111. I 144.1t, alephill. 644A 11111%4~ A III Varying prol"is- # - ; II.M.. A. all. 44.11 .4 111- 41"Ift.k. .4-f4iiiNte-1 4.1 poll, 00 ! ,, ~ ! ; NA 4, lit, I "ttl tit ad-lo.. 4 N, 1,v,th at"I Al 4ml 104L 00 .#4i#k-s wAw slinford. Dwsr atitlim imultord lit stimeassill 00 tt: 'llenaill anti drivreo"Al litaitally aln'l tl,v. St.oximij, J Furtlit-t tudirs, by ilivall. Ill inwitistrupor aind x-ray tit$. roved th t Th i d h I 00 , I p a e nertaw istrestigt P . title to the (trillitation ul vialuid" of F., etc. 11M At var- 00,31 Wife was unstable in the porwitce ud ustriduse. Atkins, 00%5 ekluffitil arr Insist effective ularn t1itile InAtrIiS& Wiser ddills. 411 loiddri. 1hi, ilmal s(litalthr resists. fol Imiking 11w eir'-frode. I- 004 IAW. Atative, thr it-ltmii,ssl .4trolloli dertem- sAptilly favoiew W list- kortft-ium A Ill, .4thad, 1.114- and nWW Pollith Of firimphitt erystitIs. Addr), uf 2-S`v* nd I d i - M cv V lY an FrA tar Fe Improm t th. detu cA the cartmnacesimus Illaterilils, dlm of tk Col Pit . lrpr fieffm 01 gmqsuktwp mirthisd (If pressing anti itize ill dir l s. were turthowls devirl(litil in the fil 1111tilett-fal wwgle. 17 irleortwe- 111rd im"vistfully wt It irt 11 N lloijif-41 ", F -0 1.10- '14C 777. it a ast so 11 , I r_4 a 1111 It 4cl U! a It a 4100000!0000000 00*000000000000000000oo 'I * Sooooloooooeo:::*Ooobooeolooooooooaooeso is SAP T, is I -, is" v ; " 1!r -M. 4 Piss 0 Mal wrimsda is 01 rol z0 go Iwo Iwo a - 0000  owooo9w9e9o9o:*OG4 0000000*00000*00* W 6 0 A L Ik 0 6 ft 9 1 1 w eon on oes 400 000 *om 0001 too 00. 00. es. r101911pa-.1 6- 11 . t, 0,19 W-9 0 0 0 : 1* 0 0 o,:$ 0 0 0. '109 '406 all. NA WLAFS 010 MOM V. raft- "VINALS an s"I"Aul wxwlwiw W11,419 rI illy) 6&36* SVMUOAAIUI p $"jump" ."A" (it) P- I- *dmm-*p- aqI a~ --d 10 WVUSW4 a4) (T) 'OPP61- WO #D *PWM ..Up 641 No -d=w PW WO "WOOP -0-0 MOR M40" 644 "1 ""is I'm 4u 'rva's ." UPA #AY'sased -j""W "I p monmmp U"=W GpW fqj PM 'IM'10 AG *24 on 44 j'0 WA01 P" OWN M oat a" 49"J is pe obpsmplw pin aqw ww"Od a~-mv bp A-2 no* too 000 coo Poo Poo  SOW "Asa" _fIx ivy Min p"Cillits 4w "441,91rols Ong u-Vjw*_ V.S.Sit. "'S", futle 30. x"- &CIrlid, is produml by twat r', Whit. of findy amad ewb4ak-s with fm gmnd C. If0wh & 40041409 CWurf"Tow tono" 90 Saba" MAO Gov an 00 000,00 0 0 0 6 040 0 0 0 * Ote 0 O-W *;we 0.0 0 0 0 0 0 0 a A Coil -0-0 44 9 9 W NVILIN ANT M ad 0 if a I N a *eoqqqoo****,4 000006060*004 T-** S-00 -00 -00 400 see woo oleo ti es fee*  MINTS, B.V. Low-inertia electric k*atere. Sbor. nauch.-tekh. inform. w elek. sellkhoz. ne.6:6-8 159. (xmi 11:9) k3lectric he&tlug)  MINTS , D. M. Kinta, D.M. 11 The hydraulic estimate of a system of surface flushing with rotating tubes," San. tekhnika, Issue 2, 1948, P. 5-18 SO: U-2888, Letopis Zhurnallnykh Statey, No. 1v 1949  MINTS, D.M. y& Protsessa Filltmtsil gupenMr 35433, Tooretichoolde looledovani Chems Posochrqoo Naucho Trudy (Akade Kommnale Khos-ova In. Pawfiloys),v V". 4-5, 1949v a. 16-28.--.Bibliogri 6 nasv. Letopial Zhurnallawkh Statay, Vol. 489 Noskvos 1949  MINTS, D. Y. Mints, D. 'V';. "Filters of lar,~e sedirent capacity, (F. B. C. ),11 In +.he symposim: Vo-prosy komunal. Khoz-va, -oscos-LonninFrad, 1941-), T). 33-~7 SO - 16 Ju" 53, (LetOT-1 5 1 Zhurnal I nykh Sfatey, No . 5, 1-r)/,q) -  XrRS. D.K.; SHMUT. S.A.; KIRMOT, K,To, red.; GUOTA, 0~0 tekhu, reds - I- timm filters &n& aalcmutions ... washing' high rate filters] Pultry AM I rasobsty p'rmipvki skorykh filltror. Moskva, Is&-To *-,ra kosp- ==. Whose' ISISR, 1951. 173 P. (mm u58) (Filters and filtration)   YINTSo- D.; SHUMT, S. Filters and Filtration First results of the use of AM filterS. Zhil. kom.1-hoz. 2 'No. 8, 1952. Monthly List 2f Russian Accessions, Library of Congress, December 1952. UNCIASSIFIED.  USSR/Physics - Hydrodynamicq, of 1.Jan 52 Suspension "Suspension of the Granular Layer in the Rising Flow of a Fluid," D.-'44. Mint-i "Dok Ak Nauk SSSR" Vol 62, No 1, PP 17-20 Kints expounds his investIgations of the phenome- non of granular-layer suspension in an ascending current, of a fluid, which investigations iiere undertaken with the purpose of generalizing the results obtained earlier in his joint work with S - A. Shitbert (at. "AM Filters and Designs.. for 23oT88 Flushing of Past n1tersi" 1951). He says sub- Ject problem is of practIcal significance in water supply in the case of flushing or washing of. water-purifying filters. Submitted by Acad A. 1. Nekrasov 9 Nov 51.  YIETS, D. INSH /physics HydTcdynamic Resist- 1 Apr 52 ance '%Aiodynamic Resistance of the Granular Layer Suspended in a Currento" D. M. Mints "Dok Ak Nauk SSSR" Vol 83, no 4, PP 541-544 forMulas and rules-of practical value in various fields bf science and technology in the case of the soln of problems connected with the suspension of-particles in a current of li- quids or gases, sedimentation or particles, use of dynamic pumps, and filtration of fluids through granulw,materials. Submitted 9 Feb 52~ by Aced A* 10- Neklmov. 234T95 PA 234TO5  ..ell.41r-r, Aw. HINTS, D.M., kandidat tekhnicheskikh nauk, laureat Stalinskoy prexii. "MM - Kotion of a liquid through a granular layer suspended in a rising flow azA constrained sedimentation of particle* In the liquid. Trudy Stroi.inst. Mosgorispolkoma no.4:92-103 153. (Hydrodynamics) (HM 80)  KIM. D.K. . kandidat tekhnicheskikh nunk. Velocity of precipitation of congested solid particles in a liquid. Gidr. stroi. 22 no.5:24-28 My #53. (NLRA 6:6) (Sedimentation and deposition  KARKIZOV, V HINTS D K redaktor; NOVOCKADOV. A.G., redaktor; V. 0, Gurov tokhaichaskly redaktor. [Purification of water with coagulants] Ochlatka Yody koaguliantemi. Moskva. Isd-vo Ministerstva komunallnogo khosiaistva RMR,-1954 46 (NL'RA 7:12) (Nater--Purific;tion5icoagulation)