SCIENTIFIC ABSTRACT PERELMAN, A.I. - PERELMAN, B.L.

FERELIMM9 A.I., doktor geol.-~mineral.nauk Historical geochenistry; ancient and present-day landformo of Central Asia, Priroda 52 no.3tl5-23 163. (MIRA 16:4) (Soviet Central Asla-Geochmistry) (Soviet Central Asia-Landforms  S/204/63/003/001/007/013 2075/8436 AUTHORS i Topchiyevi A.Y. '(decoased), :~Ujihina, Ye,A..09 E ~~e 1 ~1= n~A a I~a ~'TITLH_i~_ Comparison of the reactive cap4icity ef,allylbenzene -;N and ally1cyclohexane-during polymerization on zhromla -:4 lyst J-1 cata TE OPICAL,30~ Neftekhimiya,,y,3, no&I, 1963,, 74-81 P .:TEXT TJ~a..polymerizaifon vfaa:~ carried out in n-heptane~*r mineral ail'and mel'isured dilatomet~elcally* The cat4ilyst, was 6% CrO~ 031 silica-alujaina and constituted 9% weight of the 35%'monomer/iolivent. mixture. 'The.temperature varied betweiin 60 and 80*4C. The x~ate of the I Ization *for allylbenzene'vaia slowei, (about 509 in the po ymer first 100 minutes) than that of allyleyeloheXane. 'L The rates decrease with time due'to isomerization of the monomers. 'The Activation. energies for'allylberizene and ally1cyclohexidne are 14.0'and 11.0 kcal/mol respectively.' Since these-ehergies are similar, the difference.in the polymerization-rates'iB considered to be' c6nrlected'.,with the pro-expcnential factor which expresses the difNrent.~positioning of the molecules -of allylbehzene and all cycl"exillie on the cA.talyst vurface. As the adsorption of allyl- d 1/2 t' r   PERELI)U F. DOLININA, R.K Solubility *and vivensity isotherms 500 ) in the sysUa Lil - LI.B;, - HV. P. Zkur,neorg*kldi~ I no.7:l6bI-.Lb4 JI 1tv.. (NIRA 16-3) 1. lwtitut obohcbey i neorganicheakoy kbinli AN SSSR imsai N..S.Kurnakova i Aserbaydzhanakiy govadwstvannyy Universitet. (IJAhlum iodide) (Lithium bromide) (systems (chemistry))  TOPCHIIEV, A.V. [deceased); HUSHINA, Ye.A.; F~ Gaqwison of the reactivity of allylbenzene and allylcyclohexane during polynerization on a chromia ca*yot. NeftekbiTdia 3 no.1:7441 Ja-F 163. (MIRA 16:2) 1. Institut neftekbinicheskogo sintemA AN SSSR. (Benzene) (Cyclohexans) (Polymerization)  PERELMAN p. A.tiI. _,az asvanytmd-goologiai tudomanyok doktora (MosWma) Gewhemistry of apient regions. Term tud kozl 5 no.7:309-312 Jl 161.  MIENOVAj, 0.1.;. doktor geol.--min.nauk,, otv*reds; RAWTARDV, A.P., red,izd-rva; SM60MU, G.S., tekhn.red. (Lithology,, facies., and geochemical characteristics of Alay stage sedimebts in the TajIk Depression]J Litologiia) fataii ligeokhWcheskie osobennosti otlozhenii Alainkogo isruse. Tafthik-skoi depressiLt H6skva Izd- vo Akado nauk SSSR* 19(a. 127 p, 22 plateso~(Akadeniia nauk SSSR, Inatitut geologii rudnykb mestormbdenii, petregraft;,, mineralogii i geokbivnii. Trudy, no.53). (91M 15:10) (Tajik Depression-Geology)  PMLIW-, A.I.,jdoktor geol.-mineral,narl (Moskva) Inner contradictions of science; new theorius and the production requirements of society. Priroda 51 no.8:1+~-47 Ag 162. (MIRA 15:9) (science)  m w FERELIM, A.I.; BATRIN, S.G. - ------ :.- PAgration aeriec of elemento in the veathering ourface. Xom vyvetr. no.4s219-260 162. (MRA 1519) 1. Institut, geologli rudnykh nestoroahdeniy., petrografii, mineralogli i geokhimii AN SSM. (Weathering) (Geochemistry)  0 Aw PERELIMANI A.I.; BORISENKO, U.N. I Out3ines of the copper geochenistry in the supergene zone. Port ls Characteristics of copper atom determining the migration in-the eupergene zone. Trudy IGEM no.70s3D-99 162. (YURA 150) (Copper) (Geoehemistry)  YEVSEYEVA, Lyudtdla Spiridonovna; PERELIMAN, A~eksandr_jl,lich; PANASENKOVA, Yo.I., red.; tekhn. red.- [Geochemistry of uranim in a suporpxw swelO&Abialia urana v zone gipergeneza. Moskva, Gosatomizdat, 1962 238 p. iMIRA 15:12) (Uranium)  PMLIMAN j A. 1. ; ANTIONOVA t A. 1. Determination of hexavalent chromium in catalysto for polymerization of olefino. Zhur.anal.khim. 16 no.6:729- 730 N-D 161. (141RA 14:12) 1. Institute of Petroleum-Cbemical Synthesis,, Academy of Sciences U.S..%&yjIq on. (Chromium-Analysis) Olefins)  BEFCXMI G.B.; SHARAM., O*K.; TOXHIMAt K,V.; JF~IMAN, A.I.; TOPCHIMg A.Y. Electron paramagnetic resonance studies of chromium oxide catalysts for ethylene polymerization. Neftekhimia 2 no.l.-I&-20 Ja,F 162. (MMA 15:5) 1e Institut neftekhimichookogo sinteza AN =R i Mdmieheskiy fakulftet Nbakovskogo universitata. (Catalysts-Spectra) (Ethylene) (Polymerization)  SHABAYEVJ- OA.; TOM111YEVA, K.V.; PMELIM, A.I.; TOPCHIM, A.V. Hature of the induction period in the pol3r~,.erization of ethylene, a chromium oxide catalyst. Neftelffiiniia 2 no.2:187-188 Mr-Ap 162. (MIRA 15:6) 1. Institut neftekhimiCheBkogo sinteza AN SSSR i Moskovskiy universitet, kafedra fizicheskoy khimii. (Ethylene polymers) (Catalysts, Chromium)  S/204/62/0(Y2/001/001/007 1032/1232 AUTHORS: Sergcycv, G. B., Sharayev, 0. K., Topchiyeva, K. V., Perel'man, A. L, and Topchiyev, A. V. TITLE: Investigation of chromic oxide catalysts for polymerisation of ethylene by the method of electron paramagnetic resonance PERIODICAL- Neftekhimiya, v. 2, no. 1, 1962, 18-20 TEXT: The aim of this study was the verification of the hypothesis, previously expressed by the authors, that the activity of the catalyst is produced under the action of the reacting substance, ethylene. Experiments on polymerisation of ethylene over chromic oxide catalysts werecarried outand the EPRspectra of thecatalyst withdrawn from the reaction zone at different stages of the process were taken. The catalyst was prepared by impregnating aluminum silicate with an aqueous solution of chromic anhydride and subsequent acti- vation. Two varieties of the catalyst, differing by the method of activation, were used. One was activated in a current of air at 500', the other one- under vacuum at 350'. The catalyst activated under vacuum displayed an induction period. The EPR spectra of the two varieties of catalyst, taken at identical stages of the poly- merisation process, were found to be practically identical with respect both to the line width and the value of Card 1 /21  Investigation of chromic oxide catalysts... S/2(M/62/002/001 /001 f 007 1032/1232 the g factor (which was 197). The identity of the active centres in the two varieties of the catal-,,st was thus establisheoThc observed narrow EPR line is attributed to a compound of quinquevalent chromium and Oc 051 ions are coisidered to constitute the active centres The induction period in the catalyst activatcd under vacuum is interpreted as the time necessary for the reduction of Cr 64 by ethylene There are 2 figures ASSOCIATION. Institut neftekhimicheskogo sinteza AN SSSR, Khimicheskii fakultet Moskovskogo Universiteta (institute of Petrochemical Syntflesis, AS USSR, Chemistry Faculty, Unj Versity of Moscow) SUBMITTED November 24, 1961 Card 2/7  SAUYOV, A.A.; PEREPMAN, A.I., doktor peol.-Ydneral.nauk Geochemistry of our time; current problems of its app3ication in the national economy. Pr1roda 50 no.1r:59-66 0 '(4. 1. Chlen-korrespondent AN SSSR (for Saukov). (MIRA 14:9) (Geochemistry)  d6kt-or geologo-minoralog. nauk; SUMOVA, N.F., red.; ATROSHCHWO, L.Ye.p tekbn. red. [Geochemistry and landforms) GookhiriJa i landshafty. Moskva, lzd-vo "Znamle.." 1961. 47 p. (Veesoiuznoe obahchestro po rae- proistraneniiu politicheskikh i nauct.-4,lch manii. Ser.12 Geo- loglia i geografiia, no.19) (MIRA 15':2) (Geocbemistry) (Landforms)  S/204/61/001/006/001/00~ E075/E436 AUTHORS. Topchiyeva, K.V., Sharayev, O.K- Pqrellman A.I. Topchiyev, A.V. TITLE: Some data on the polymerization of ethylene on chrorii.A catalyst PERIODICAL: Neftekhimiya, v.1, no.6, 1961, 780-785 TEXT., The object of the work was to continue the investigation of ethylene polymerization process on chromia catalyst in order to elucidate the nature of the catalytic activity, The chromia catalyst was deposited on alumino-silicate obtained from 51lica gel covered with 3% wt of A1203- One portion of the catalyst was activated in N (dry air stream) for 4 hours at 5000C, The other portion was activated under vacuum at 3500C for 4 ho rs, Both catalysts contained 3% wt Cr. The quantities of Cr9+ were 1.25 C-Lnd 1,96% wt for the catalysts activated under vacuum and in N respectively. Experiments were carried out at several temperatures between 40 and 1350C. Ethylene was fed into reactor at the rate of 40 ml/min and each experiment lasted 40 min.. Activity of the catalysts was obtained from the increases in their Card 1/3  S/204/61/ool/oo6/ooi-/004 Some data on the polymerization ... E075/E436 weight due to deposition of polymer, The amount of heat evolved during the process was measured to observe the progress of the polymerization. It was assumed that the rise of the catalyst temperature T is proportional to the heat evolved and, consequently, to the reaction rate. The small initial heating obtained corresponded to the heat of adsorption, It was followed by an induction period and the main heating effect due to the polymerization. The heating curve rose exponentially, passed through a maximum and then fell as the reaction rate decreased, The length of the induction period increased (from about 2 to 20 min) with the decreasing temperature of reaction. The induction period disappeared when the catalyst was act!-ated with ethylene instead of nitrogen at 500*C. The authors concluded that the formation of active surface on chromia catalyst was due to its interaction with ethylene. The length of the induction periods was governed by the time of activation of the surface, The authors postulated that ethylene reduced chromium in the catalyst from Cr6+ to Cr5*. The catalyst activated in air operated without the induction period because such a catalyst could be Card'. 2/3  GLAWVSMA, Mariya Allfredovnep prof.; MAKUNINA, Aleksandra, Aleksandrovnap kand. geogr. nauk; PAVIMIKO, Irina Alekseyevna, kand. geogr. nauk; BOZHKO, Margarita Georgiyevna, starshiy ]Aborant; GAVRIIDVA, L-ina Favloyna, nauchr*7 sotr., laborant; GRUNVALID, V.P.., retsenzent; ZASUKRIN, G.W., retsenzent; PERELI.W.-Ij., red.; FADEYEVA, I.I., r6d.; YERMAKOV, M.S.# teldm. [Geochemistry of land forms and prospecting for minerals in the Southern Urals] Geokhimiia landshaftov i poiski polezrjykh isko- paernykh na Bzlinom Urals. Pod red.A.I.Perellmana. Moskva., Izd- vo Ysosk.univ.., 1961. 180 p, (MIU 15:2) 1. Nachallnik Yuzhno-Urallskoy landshaftno-geokhimicheBkoy ekspe- dits1i geograficheskogo fakullteta Moskovskogo gosudarstvennogo universitete, (for Glazovskaya). 2. Yuzhno-Ural'skoye geologiche- skoye upravleniye MinisterBtva Reologii i okhrany nedr SSSR (for Grunvalld, Zasuluchin). (Ural !'ountains-Geochemichal prospecting)  PMELIMAN9 Aleksandr Illichj KAPYSHEVA, V.S., red.; GOROKHOVA, S.S.t -----Uk-bn. red. (Geochemistry of epigenetic processes; zone of supergene processes] Geokhimiia epigeneticheskikh protsessov; zona gipergeneza. Moskva, Gos. izd~-vo "Vysshaia shkola," 1961. 149 P. (Geochemistry) (MIRA 15:3)  PMELIKU A.I. doktor geol.-mincralonauk (Moskva) In vearch for mineral resources. Priroda 50 no.9:98-100 5 161o (MIRA 14:8) (Geochemical prospecting)  FERELOW Aleksm-Ar Illicht VASILOYEVA, O.S.p red.; KONOVAIAUK, I.K., K' 12 "s A.V., rod. kart; KOSHELF-VA, tekhn. red. [Geochemistry of landforms] Geokhimiia lmdehafta. Moskva, Goo. izd-vo geogr lit-ry,, 1961. 496 p@. (MIU VOW iGeochomistry) (Landforins)  (MILIMAN9 AsI.1, doktor geol,-zimeralemwk ll-l---ftocbvjffv--U7 of ancient land formo. Priroda 50 no.ls4l-50 Ja 161. (Gembemistry) (MIRA 14:1)  DAXFI;,jV., G.V.- PERELIMAN, A.L.; RABINOVICH, G.Ya.; SHCHERBAKOVA, T.V, 1--'- ~ ~ -.. , , "'.- First results of acoustical logging using the LAK-1 laborator-f. Neftegaz.geol. i geofiz. no.8:23~-27 165. (MIRA 18:8) 1. Voesoyuznyy nauchno-iss3-edavatellskly institut geofizicheskikh metodov razvedki i Vsesoyuznyy nauchno-issledovatel'skiy institut razvedochnoy geofiziki.  KUZIMRAP AJ*i KUSHNAIIEVAV EeBej YFRELIMAN9 A.L, Deocription of the outbreak of infleunza in Stalingrad in 1959& Vop. virus. 5 no. 6:753 N-D 160. (MIRA 14:4) (STALINGRAD-JNFLUEJJ~7A)  MUEWMV$ L.A.; F~~M'Mk~NA.M~.; ROGCIVA, N.A. Determin1W specific inductive capacitance of materials at high temWatures in the 3 cm. radio vave Lvmd. PrIb.1 tekh.eksp. 6 no.5.,-138-141 161. (MIRA 14::10) (Dielectric constant-Mauurement)  ' i 77~ -Tmau aliff Ki -S!Ill rvw!~~ tho wl f, Iz, :;jmf I;f  NAZAROIF, I.A.; PMLIMAN, A.L.; SMOLOV, V.B.; STEPASHKIN, G.I.; STERNIV, V.I. C - Electronic calculator of the propagation velooity interval of elastic vibrations for an acoustical logging device. Geofiz. prib. no.g:.46-64 161. (MIRA 15:3-1) (Logging (Geology)-Equipment and supplies) (Electronic calculating machines)  iVCC Nks SOURCP C&ja.- UR/0169/65/000/012/D041AD41 ALMI 10R: Dakhnov, G,Ve; Perellman, A.L.; 11abinovich, G.Ya.; Shcherbakov&, T.V. 'rITLE: First results of acoustic carottage with the type lAK-1 laboratory SOURCE: Ref, zh, Geofizika, Abs. 12D283 REF SOURCE: Neftega geol. i geofiz. Nauchno-tekhn. sb., no. 8, 1965, 23-27 F*rosi t~ olastici , mineral, TOPIC TAGS:AseismoLlogy, acoustlt~ detection,acoustic equipment/LAK-1 acoustic equipmen ILBSTRACT: A brief description of an acoustic carottage laboratory, LAK-1, is given; diagrams registered by the laboratory and problems being solved are discussed and lis ted. The LAK diagrams can be used for the segregation of the cross sections of bores t.nd the sorting of rocks according to their elastic properties (on the differences.of tound passage time and persistence of the wave picture), for the delineation of bro-. ken zones, qualitative evaluation of rock porosity; quality control of concrete colu- ans, and for ancillary data for seismic recon interpretation. The use of 1AK-1 equip- iment can be valuable in cases when common carottage metfiod3 do not assure solution of problems related to the cross section (e.g. in bores with high mineralization of the boring solution). The precision of velocity determination from diagrams is evaluated. use of M-1 i'or research in methodology and for the clarification of prospective uti, lization of ai:oustic carottage is recommended. A desire for an increase of stable al- lowable operating temperature and a decrease In the diameter of the apparatus used in bores is expressed. juanslation of abstract3. Lf', -.,.)rd 1/1 SUB CODBI 08 UDC 550.839:550.834  ACC NRt AT6032733 SOURCE CODE: UR/0000/66/000/000/, 77/0084 AUMOR., Perol'mnn# A. L.; Zorin, G. K.; Kabinovich, G. Ya. ORG: none "'ITLE: Results of tests of mock-ups and samples of acoustic logging equi;~~-.ent and vome prospects of its use SOURCE: AN SSSR. Institut fiziki Zemli. Geoakustika; ispol'zovaniye zvukl i ul't.ra- -;vuka v seysmologil, waysmorosvedko i Sornom dole (Gooacoustical the use uf aound and ultrasound in seismology, seiamic prospecting, and mining). Moscow, Izd-vo Nauka, 1.966, 77-84 TOPIC TAGS: acoustic logging, well logging, ultrasonic logging, digital C~~MpUer ;C t3STRACT: The development of pulse a4istic loggikv equipment in the Leni.-.grad Lranch cf VNIIGeofizika and VIRG (All-Union Scientific Reseirch Institute of Prospecting Geophysics) since about 1956 is described. The first field test of acoustic logging equipment was made at Ramenskiy well I in 1957. A three-element well device contain- Ing magnetostrictive emitter and two receivers was used in the experiment. Digital .analog computers to determine the formation velocity and total time from L,110 first arrivals were developed by VIRG and LETI (Leningrad Electrical Engineering Institute) in the period 1958-1960. In 1962, industrial tests were made of an experimental model of the LAK-1 acoustic logging device which had been developed by WHKAneftegaz and i ard 1/2  ACC - NR,-'AT~63 2 7 ~j-- VIRG. The IA(-I, which has two emitters and one receiver, is now being produced in the Kiev Geophysical Instrument Plant. Orig. art. has: 3'figures. SUB CODE: W3/SUBM DATE: 28Mar66/ ORIG REFt 003/ OTH REF: 002 CAnd 2  PEMIKIN., Aleksandr Illich; FEODOTIYL'Vp K.H.v kaixLgeol.-Biner.nauk.otv,re4i.; MAK&UVO V,xa.,, red.izd-va; ASTAFIYLVA,, G,A,,, Ukhn,r*d, rMigration processes of salts on the plains of eastern Turkmenia and L western Uzbekistan in the Neogene; ancient soils of deserts in Central Asia) Protsevey migrataii solei na ravninakh VostocJu&QL Turkmenilif, - Zapadnogo, Uzbekintam v neogene; drevnie pochvy pustyn' Srednei Amil. HDokva, Izd-vo Akad. nauk SSSR. 1959. 100 pe (Akademlia nauk SSSR. Inatitut geologii rudnykh meatrozhdonii.. petrografii, mineralogii i geokbiTnii. Trudy., no.25) (MIRA 15:10) (Soviet Central Asia-Salt deposits) (Soviet Central Asia-Soil chemistry)  a* XT r) M 1 a 31 J2 A at 36 31 At 30 Do da 6) in 6) at 0-rc-s"S AV "JOIJI&IS -Lis J7 -so T7 4W m6d sis lee -00 Is: are A # w use WI COO Coo Joe coo coo =ee !!, " -"of I- iT-I, -,m! -LL -------- use SIDOS4 map Obf 03u" IIII&M dw a" Lot u mw 0 It 0 9 1, " am ~40 4 0 v 0 0 we saw .4MR.A Moev *'see 410-60*00  All A" 10 71 1 P It I 11AII MCC WUJ# 1 . - - - - . .. ... . A%! kpb jt~o -41 P-10-1km 0 P- acid, A 1- (A d _j rm. A . W. s. S. R 1 4. #;to A (111*17) The n-Ohmil- uvol i,4 Irmf h,"ji ifil, ji-s-mi-t all fly mots, lbi [after in fhv preu-iltv III it', L!xi% at -00 Illith 111%' VII(T44 Mil"itf P. -41111, itn't fill, Sittig A( 1.", *9 0 LN , III- lumarlic hig taills When 41111vitull frills' Sq ~ 9-4v" thi, 4,49FT14m"linit 112141111,41 With mrrml 111 1). a-14iffmit- srid. clitaincd (Tom with t-vi% ils4i, " af ill 4 l1r., 4-11falti, I. . Ust all "r(lifix to I fit- * - l l b I I . A " I , . ..Vr /ttl k,,% . el 4 . C. VIA- 1114'. coo O)o &* 0 .0.7. 1.7.j or 1, RX1 A* , 11191 Fin 111111 0 I s 0 tm a 1 W All A3 0 T7 0110" 11a 3 0 9 A, 011,11, 01 14 1 4 9  L 10 1~"' C 3C ACC NR1 AP6008531 SOURCE CODE: UR/0280/66/000/001/0154/016:0 AUTHOR: Perel'man, A. M. Moscow) ORG: none TITLE: Determination of the statistical characteri s tics of a nonlinear servosystem 7- SOURCE: AN SSSR. Izvestiya, Teklinicheskaya kibernetika, no. 1, 1966, 154-160 TOPIC TAGS: mmati automatic control system, oervosystem, narrow band transmission ABSTRACT: The author notes that at the present time the most effective approxi- rrate method of deriving the probability characteristics of systems which contall. ei3sentially nonlinear elements is the statistical linearization method proposed by 1. Ye. Kazakov (Kazakov, 1. Ye., Dostupov, B. G. Statisticheskaya dinamika n.!Iineynykh avtomaticheskikh sistem. Fizmatgiz, 1962~ Fundamentally, this P method consists in a description of the nonlinear inertialesS elements in the SySt-~!m by the statistical gain factors Ko and KI, i.e. , by replacing them with linear inertialess elements with gain factors Ko and K, for the regular and random corr- ponents. The result is that the probability characteristics are determined through the use of fan.-iiliar methods associated with linear systems. In this paper an appro2dmate method is outlined for the determination of the mismatching probability Cord  ]IMEMAN, A. N. "Predominating Chemical Elements in the Landscape," Nature, 2nd Printing House of the Publ. Co. of the AS USSR 14oscow, No. 4, 1952.  32455 )4.-'51500 S/044,/61/000/010/019/051 C111/C222 AUTHORs ,Perellman, A.Ya. TITLEt Limit value problems for the polybarmonic equation with constant and variable coeffioients in the boundary conditions PERIODICALs Referativnyy zhurnal. Hatematika, no. 10, 1961, 46-47, abstract 10 B 202. ("Tr. Voes. zaochn. lesotekhn. in-ta", 1958, no- 3, 89-105) TEXTs It in shown how the solution of a number of limit value problems can be obtained for the general polyharmonic equation with constant coefficients in the boundary conditions and for the equations .6 u - 0 A 2u = 0 with variable coefficients in the boundary condition. In � 1 the author reduces limit value problems for Ann - 0 in the case of an arbitrary simply connected region to the solution of a finite number of Dirichlet problems and to the solution of systems of integral equationn. In � 2 these problems in the case of the unit circle are reduced to the integration of ordinary differential equations or of a system of ordinary differential equations. E.g. for an even n the problem Card 1/2.  SHIFRIB, X.S.; PMLIPAII9 A.Ya. Kin,atica of cloud cr7stallization# Izv.AN sssa.Ser.goofiz. ao.6:839-853 Je 160. (MIRA 13:6) 1. Yeasoyuznyy saochnyy lasotekhnichaskiy inotitut. (Gloud physics)  KAGAN. Y-K-: FR2RLIMAN, A.Ya.; RYABOVA, Ye.P. .Brightness of a cloudless sky in a two-parameter atmospheric modelo Trudy GGO n0.100:20-24 160. (MIRA 13:6) (Solar radiation)  SHII;RIN,, K.S.; PBMIYAN, A-Ta. Kinetics of distillation in a supercooled system. DDkl.Ll SSSR .132 w.5:114&-1131 Je 160. (UM 13:6) 1. VaesoyuzWy zaochWy lesotekhaichookiy Institut. Predstavieno akademikom A.N. Prunkinyu. (Distillation) (Sapercooling)  PEMLIMAN, A.Ya. Diffusion distillation in a three-p-ftae -'z-;. LN SSSR. Ser. geofiz. no.8:2214-1223 Ag 161. (MPLA 1 41:7 ) 1. Vsesoyuznyy zaochr*,y lesotekhnicheskiy institut. (Cloud physics)  PERELIM, A.Ya. Relationship between the time and speed of diffusion distillation amd the physical characteristics of clouds. Trudy GGO no.3.20:60-72 161. (MIRA 14:8) (Cloud physics)  SHIFRIN, K.S.; FMELIMAN, A.Ya. I D etermining the spectrum of particles of a disperse system from its transmittance. Part 2. Opt. i spektr. 15 no.5:667-675 N 163. (PIRA 16:12)  SHIFRINP K.S.; PERELIMAN, A.Ya. , 1~~ Doternining the "etr= of particlaB In a dimperee isytit4m from data on Its tranaparency. Part 3. Opt. i spektr. 15 no.6:803-813 D 163. (MIRA 17:1)  ,)HIBRIP, K. S.; PIMEMVi, A. Y,~, "Determinaticn of the spectrum of small particles by light scattering." paper presented at the Atmoopherle Radiation Symp, Leningrad, 5-1.2 Aug 614.  J --A 10743-0!; BDS NR::, Anoo3354 S/002o/63/15VO62/0326/0327' Sbifrin, K. S. Perell man,. A. Ya. 4r JMZ: Corputation oi~-particle spectrum using data on spect-ml traniparency .~Ou_=: pjj. SSSR. Doklady, v. 151, no 2, 1963,:326-327 ~MC TWS,-,, optics of tuxbid~m&dia, scattered Ught, particle spectrum, ~Jiitmosphieria transparency Development ~6ABSTRACT: of methods for computing, the partie2e spectrum fxom the ~inrormatioa, contained in scattered light is one of the leading yroblems in the loptics 0 f -turbid media. In systems in which only primary scattering need be considered: the :problem is reduced to the inversion of the Fredholm'integral 1'~equation of the first kind (X,Y)f(x)dx, 0 I- whe re f (XI, is. tba'function of particle distribution by size; F(x,y) is the Hnucleus of' the equation, Icnown from the theory of light scattering on a particle;  MSM3554 Pzd- T.G an experimentally determined Twction. A rew., precise iwersion o. ~Quztioz~ (1) has,been obtained.vhich imposes only moderate requirements on the .%ccuracy of measurements and eliminates the source of.major errors. The particle' ~Pectr=.im. conputed solely on tbe'basis of transparency. Computatioins Tor 1 humerous,'ei'=ples show that 4hen transparency is measured'to an accuracy of spectral,error Is of the order of 5%..7he xenue ot vavelenatbs in Vnich transparency data are requiTed is deterrdned by 2-5 jbN' Min JP (2) inhere r Is the mo&i.vf the 1uXnown distribution. Tbr e=qple, -for atmos pherit X at rM 0'.1 P, the trarsparency measurements should be: made ~n the region frout O.ZL to 0.52 Ii ) and for fog droplets at rj, - 111 1 in the j~egion frtxi 2.1.to: 5. 2 Tji these estimates the refractive index vas assu-med ip-be 1.33.t, The article vas presented by Academician A. A. labedev; L -b. i~ary 1963 - Orig. art. hu., 10 forau.'As J~86CTATIO'Nf Glaynaya geofizicbeskaya observatoriya im. A. 1. Voyeykova Pain sical Observato -Car  ............ - ---------- -- 77- t'-525M45- wit I WMG (A/fCC/S-WLt 1: Pa-m5/01-4 GS/131 CMQqNR:',ATSOII157 1JR/0000/64/600/00a/0067/0077 A Perei'm AIMOM Aff Ya6 -TITLE-.- -Computation of the WArticle spectrum using "Wozi spectral-transparency-1j, o, akUn M 11 -optikis-a ibVdshi- aniye-p o otr ttqosfary~ Al Mos6owl~ -AW. -:ibptft atmosfery tkyAnd atrAosp erle qp ca -1964,-67-77- TOPIC- TIM: atmospheric o0tics, atnLofi~hie-ric,-transpareacy,--4 light$- !Lerpsoli, particle -6 pbetrura -particle spectrum of a disperse system from data on ABSTRAQ'T;..Dcjerm1nat1on of the 1101i jj(,~,qj jerj_qg JS a timely problern in the optics of turbide media, - 7be purpose of this a method for the) transformation of data. on spectral transpare article.iv--is to develop, ncy. ba.-S-i t approacb W a solution of tha:mo i Important case of."soft".particles a 'von .0arlier Q(A Sh1frin and V.F, Raskin, -optikut I speklTookoplya-, 1961, 11, 268). However, due to tht poor stability of trailnfw wiltion problems, the direct numorIcal computations by meturis oi the formida given Jrk the earlier paper Is virtually impossible. Airninating nntabil- car~puw'dons are possible only aftar c. the factors responsible for tho h "Ity, -of - thcr solutivu. This problem is solved In the present pEper. The approaoh given  L52505-6-4i: ACCMI& MR: AT-5011157 ---ndre--In Axiflbid,-.es it po~ssible to compu~te. At -the- spectrum -of p4irt4clea of the system siblelyo-h-i%ebasia.-of data on its -transparency without making anyadditional nssumptions concerning the character of the spectrum. 11c paper J,3 divYlled into 107 sections:I Introdu16M)n. 2. Inversion formula. :1. ComputaUon of the parameter L(P). 4. B;Lzic equation, 5. Use of the i3rincipal nam the-prOcipal equation for a caso of 6i. -BroadiMing of principal 4and. - Use 0 ~analyt!W atipulat1on'of trai~sparcncy. 8. ComputaLion of tho particle spectrian for tabular (griphic)- stipulated trans arency. -5. Evaluation of the accuracy of the P _-_'cqmputati(m-zn-et.hod.--10. Spectral region and Conclusion.- Thedevetlopeti method gives a irecise sollution of the problem of determining the particle BPOOtrum from P lnforx~atior, contahted -in scattered light. It Is considerably superior to miathods in which ifie votem is related a priori to some diatributJon and linformation on scatterin; 'is used to d&emina Olie un1mown characteristics of this dlstrJ~butlon. Orig. art. hash 41 formulitai 1 firtigre and 3 tables, ASSOCIAT(OH: Glauaya geofizichealmya observatoriya, -Lenin ad- On- Inn, gr ObserVato,,I) OUBhUMMi _26M)04 'ENCL- 00 SM CODVI OP, tO OV.. 01, 110 18 IMMI 001  SHIFIUN, K.S.; PEFtELtMkN. A.Ya. Determining the spectrum of particles of a disperse system from data on ita transparency. Part 4. Opt, i apektr. 16 no.1:117-128 jit 164. (HIRA 1733)  SHIFRIN, K.S.; PEULIMAN, A.Ya. Reversion of the indicatrix for "soft" particles. D~;kl. 0' S-E-SIR 152 no.33578-581 S 164. (VJRA 17:10) 1. Glavnaya geofizicheskaya observatoriya in. A.I.Voyeyki)-,,a i Vsv,o--.* y=IW aochnyy lesoteklinichesRly institut. Predstavlono likadvirdkom A.A. Wt),adevym.  SHIFIIINP K.Sej FFIMIMAN, A.Yu.; IVXEFJIINA, L.K. ~-,- ".. ~ o - ~ . Tables for ralculating the ripectr= of particleo of a d.5pe-rae system on the bdsis of its transparency. Trudy GGO no.152;192- 23.1 164. (MIU 170)  A ~122-;6 V-3 OW __Y ACCESSION HR: AP5022921 - VH/0362/65/,OOI/CO9/0!)64/0972'--'.--':-~ -AUMOR.i f". Shi6ifi: -9 Perellwan' A. Y&L -1, MTIJHJ~ iki ty. Ut scheme in Vxoceshing light-scatterin or,,the comp 4:tioiial e; data A -k ZQUM"~-' SSM. Iivestiya.'Fiii a -9 _*t*qzl~ery -_i_ bkeana i-l965-; -~64-972 arency method turl, TOPMTAGSP~, likh 's~ait ring,,trantip id Ia'yer, turbidity e- pal 'ticle distrillation-, atmospheric ~~.cq ABSTMT!, ~:--T e ~etrect of incomplete and inaccurate c Opti. al data concerning the tur-' i~bid layerp on - the pre-qision of ~determining the functiow.-of particle distribution by~ An a of the 'transparency' and.scatter-Ing pattern - method. is examined. A direct 4. -io eck based ~a v~eoretic al. models,- ,.)f the stability of --the t-wo methods is appl i e d to "the xwecbanll~m of the coin I sch Questions'related t eme othe validity of, 24~- ~phydical assuiaptions -made in the donstruction of the model of the turbid mediums both'the' tj,-anb~~arendj and the indicatrix inethods are-nbt'discussed. The results loi:i6-Aiov -that. b' e the fu~nction _'co6&tat 0th. method'.a make it ronsible t c a)- c ul at o o xticli i -ps Adstribut on~of +he:dispersion system from appropftate_opti~al. f dttta Uith - -of accuracy. On the basis- -of Y_ p ptablo�~ degilee. of the analysi a t pical eian les' 12',.: 77  5022911 XecwW6ndat i;.ktis Aire m ada vith respect to. it ratiQnsI.seI!ctioh,. of the ii avelengths .14al !Lfit6rValE (smgle intervm- and the -nixmbotr- of t ransparency ml~asure- :11I arti has: -,31 formulas, 5 figureis and Orig. (DMJ~ 2 tables. . G ikvneyii-geofizicheakaytt-observatoriya-iTi. -A&--f- 45SOCT-ATTfXt -Voyeykova-(tiin led, ~ 6 ES ENCI! 00: 5- q -SUB CODE: .4 d:' ttgr SOVI 00~ MER: 000 ATD PRE SS: q 1,3 w 10 no-Mum",  ACC NRI AP0022219 SOURCE COLM: UlV0362/66/002/006/0606/0616 AUTHOR: Perellman, A. Ya.; ~;hifrin, i,. S. ORG: Main geophysical observatory (Glavnaya geofizicheskaya observatoriya) TITLE: Calculation of optical characteristics of dispersive systems with a naxrow distribution SOURCE: AN SSSR. Izvestiya. Pizika atmosfery i okeana, v. 2, no. 6, 1966, 60o-616 TOPIC TAGS; light scattering, atmospheric optics, acrosol, aerosol optical property ABSTRACT: The authors have chosen a family of gamma function distributions as a model for individual particle light dispersive characteristics. with the help of this model ptotic formula has been develo-, and a modified stationary phase method, a general asym ped, representing the structure of the dispersed radiation field in the case oi narrow dispersive systeras. The range of validity and practical applicability of the obtainedi formula has been evaluated. The formula has been used for the computation of polydis-1 persed optical characteristics pertinent to the methods of transparency, the scatte- ring function and small angles. The results show the oscillating nature of the optical- characteristics in the case of almost monodispersive systems. Orig. art. has 63 fornu- las. SUB CODE: 12, , 20/ SUBM DATE: 25Dec65/ ORIG REP; 006/ 0771 REP: 001 UDC 551.593.5  L 31497-66 EWT(I)IT IJP(c) ACC NR: AX;013026 SWRCE CODE: UP/0051/66/0 004/0692/0700 AUMOR: Shifrin. X._S.; PerellmanA A. Ya.; Bakhtlyaroyt V. G, 4 ORG: noae TITLE: Determination of the spectra of of a disperse system from data on its translarency. VI. E)Cperimental verification of the method by means of models SOURCE: Optika i spektroakopiya, v. 20.9 no. 4p 1966.* 692-700 TOPIC TAGS: spectral distribution, optic transmissionp particle srectrum, optic dirpersion AliSTRACT: The first five parts of the article (Opt. i spektr. v. 15, 533, 667, 603, 1963; v. 3.6, 117, 190~; v. 20, 143, 1966) dealt with a theoretical method for determining the spectrum of particles in a disperse system by determining the spectral tranaparency, and contained formulas derived on the basiG of certain a" - sumptionG and theoretical models. The present article discusses the difficultica which arise in experimentally checking this method and describes experiments made on several two-dimcnsional models of turbid media. These were either spores of fungi Calvatia, on a dry plate made of KRS-5, or dispersed single crystals of A,-,Br Card 1/2 UDC,,51~~.182.'+ 535-345-1-001-1  L 31497-66 ACC NR: Ap6o13026 0 in gelatin, placed on a quartz plate. The r~pectral transparency was measured with standard instru;nents in the 0.24-1.1 and 2-25 mm ranges. The distribution of the dimensions of the spores or the AgBr were measured with an electron microscope and the size distribution was determined microphotographically by a sampling tech- nique, since the plane model did not fit the field of view of the electron micro- scope. The npectra obtained with the electron microscope and by the transparency method were found to be in satisfactory agreement. Orig. art. has: 6 figwes and 13 formulas. SUB CODE: 20/ suBm DATE: 24oct64/ ORIG RU: 010/ OTH REF: o01 Card 2/2 Vn.C,.  SHIFRINp K.S,; PEPILIMAN, A.Ya. Calculation of the spectrum of particles according to Information on the transparency of the dispersion system, Trudy GOO no.170: 3-36 165. Spectral transparency of nearly monodispersion systems. Itid.*37-60 (KM 18t9)  ACCESSION AT4002178 S/2922/63/065/000/0090/01:13 AUT11OR- Shifrin, K. S. (Leningrad); Perellman, A. Ya. (Leningrad) TITLE: Kinetics of the crystallization of semidispersed clouds SOURCE: V130S. nauchnmeteorologich. soveshch. Trudy*, v. 5. Sektsiya fiziki svobodnoy atmor.,fery*. Leningrad, 1963, 90-113 TOPIC TAG'S: meteorology, cloud sLudy, sublimation kinetics , isothermal sublimation, ice crystal spectrum, cloud disperbion, gravitational coalescence , cloud micros.tructure , Cauchy problem, cloud crystalli- zation ABSTRACT: The kinetics of subli mation of spherical particles are considered for the case of a super cooled mixed cloud with adequate vertica.1 developmait (see Fig. I of tiv E~closurc). A simplified and a basic calculation procedure for the process is presented In detail. The motion and curvature of the particles, as well as the spectra of the ice crystals, are ig,,.iored in descriptions of Inothormto sublimation provided by either procedure. Furthermore, monodisp6rsivity of water droplets is assumed for the simplified procedure ard the liquid phase spectrum is considered in the basic procedure. It Is shown that corrections for curvature and the crystallinO spectrum of the paiuclei3 1/4  t ACCESSION NR: AT4002178 can be omitted. Use of formulas from the simplified prc~ccdure permits sufficient accuracy in describing the entire process qualitatively and characterizing the effects of numerous physical parameters Qo, t, m, n, etc.) on the rate of conversion T*. The latter value depends on tlvse paramqtcrs and can be determined directly from input data (see Table I of the Enclosure); in practical cloud seeding, m Is governed by Ilia quantity of seeded agent, n by cloud structure.anda c by cloud temperature. The simplifi(A procedure can be used in quantitative calculations for narrow droplet spectra or standard spectra where Qo..< 1. 5 c. The spectra must be considered when greater widths are Involved and this represents the most significant correction in the simplified procedure (up to 50% when determining T*). The correction for nonisothermic character is 10-20%, compared to 5-61% for motion of the particles. The basic procedure, when corrected for the two latter factors, describes sublimation of spherical particles accurately to within 3-5%. Orig, art. has: 5 figures, 8 tables, and 101 formulas. AbbOWATIVN: Pione SUBMITTED: 00 SUB CODE- LS Carch 12/4 ATD - PRESS: -3056- ENCLs 02 NO REF SOV: 01 5 OTHER: 002  AP, ACCESSION NR: XT400 178 ENCIA)SURE: 01 2 A Fig, 1. Cloud area in wiii*ch su6limation is con- sidered A and B cloud boundaries; D - interval cloud area-, ( TO) and (TI) 7 position of a layer at the Inception and termination of sUblinationg 6 die- 'C_c~rcv, 3/4 placement magnitude. r  L 1816r66, (1). GW ACCEBSION 10:.* A75025225 UR/2531/65/000/170/0003/DO-q6. AMMOHi Shi PerelInan Ya -frin. K. S. 5 6 r a cles from data 6n the transparency o~, TIT, Compiitiog the spectrum o p M dispezved system. SOURCE: Leningrad.. Glavneya georizicheakaya obs6rvatorlys. Trudy, no. 170, 19650 radiesionnykh protsessov v atmosfere (Investigation of radiatl6n-prDeesses In the ttnospher~), 1~36 -~IOPMTAGO: 4~ longwave radist' disperlied system, soft particle scattering, ~trsnsjp'Ar~hO~ 'polydispersed 'Odattering ;'ABSTRACT:. .712'e. authors' diiscusiil I e thod for determining the spectrum of a prec a me soft -8 -zed iarticl;*, -in a dispe- system,'wbIch is based on an experimental determination of, the systeis, a transparency (a hViction - of the, relationship between the toefficieAt- ..pf _polydispe:~aed scattering and wavelength). Exact formulas are derived for a obtw-to-one transformation for the direct and inverse problem of single scattering 'by iof t particles true for a general case of an arbitrarily scattered system. tomputatlons.,are presented for tfie basic trans fornationB, asyaptotic evaluation -of transparency tor large wave numbers, derivatiori of general thmsformation CA" 1/2   11 3W-66 En(3.)/FCC GW AGMSSIM NR: ATS025226 UR/2531/65/ODD/170/OD37/0060 ~.AVTAOR: Shifrin, K. S.; Perel'sm, ILTLE: spectral transparency 'T of almost monodispersed system 4, $OURCZ.* LinIP.Skad., Glavn aya geofizicheskays observatoriyi~. Trudy; no. 170, 1965.. Issle&vaniye radiatsionnykb protsessov v atmosfere (Investigation of diation proce Bien in the atmosphere) 37-60 r a Q 70PI C -TAGS 4.t~vpsybe ic !62tics%Ntm6spberIc transparency, particle size distribution, si~po d:ispert:Lon,~:=DUod:Lspersion, transparency spectrum, light scattering, atmospheric ly scattering ABSTRAC3r:, The 6f feet of the ~pairameters,O'f -polydispersion, particularly the width 6f dIs_tAb%itI6n 'Ar, on - the -transparency. of the system Is Investigated. Mbno- ;''Adisperfied scaturing of light is regarded as the limiting case of polydispersed which can- be represented by a series of delEa-shaped distribution ;~6rves whose properties are usee. to conputelby a modified saiddle-point method, the integral representing the pol dispersed scattering coefficient. Scattering almost xonadispersed system is regarded as mmodisperse with'a correction d system of particles ."itatto.r. Analysis begins with consideration of a polydisperse 1:~hose optical, little from those of'the surrounding medium. properties differ  3642-66 WRI A75025226. ACCESSION I 2ianges'. in the spectral transparency of the system are investigated alon g two i ~,lnes. In the fIrst, different distribution widths are considered for constant liean-squamradius 72- (transparency-remains constant for small A). In the second i 13me of investigation, the mode of the distribution::rH is fixed. Formulas 'are r for'dete inining transparency with constant T2-7 and rM, It is assumed that A:be particle-size (radii).4*ctn= Js described by a gamma-distribution and the ficattering cross section is an.,arbitrary analytic function whose argument is p proportional.. to the product ry (v is' the wave number). An expression is derived r A _,io the optical characteristics (for example, transparency) of almost monodispersed ijTstems. The range of applicability of these formulas is evaluated. Calculations: :lire presented which Illustrate'del Cails of 'the spectral structure of transparency I jig -the distribution width is narrowed (transition to the monodispersed case). te 40nnection between dimensionless characteristics of transparency for different A.,ineiar sc..ales is established, and a.foilmula is derived for determining trans-, iiarency when the linear scale is changed. Curves of the spectral transparency tif different.polruspexsed systems are presented to illuBtrate-the application of the for mulas.: Orig. art. has:' 9 figures 136 formulas, and 4 tables. JEO riSSOCIATIOM, Glavnaya geofizi6eakaya observatoriy4 Leningrad (Main CepphLsical. tibservat Xy) 14 It, 5- 6ard 24;   15954A 60/069/6102 01,06 AUTMR: Pa"I'Amn, A* Us _71mv Ifir4it iif iwp doses of caffolm an the mation of InwAty to tuber.-do$ In wooluted alblao 3dft -SOMCEs ftalW~ent eksporbwatallhoy b1clogii :1 misditsive vo 38, noe 1964P 3.02406 IOPTC TAW WnrouUsis contria, nervous system, mefteml experiment N=vd i wtam vaccins "spirAM system dibease AWMCT:1 alblao'n1ce vItb 0,*5 milligrams of BW Vaccines, ~,i&lle-,effectlve. In assuring a milder course of the disease after Infection vitb virulent s' allergic reactlow In the' yedbacteria culture., caused severe lung# NoWdately following Infection. Dai3,v aftinistration of 5-7 milli- .17: -grams of cedrelne during the 3h days betveen vaccination and Infection re- duced the anergile reactions and abimewbet, increased the effectiveness of the Ammunizaticin. Vaccination vitb I milligram of BW was bighly effectivey -Avratw iqoc rtar.11oA In %be lungs* Immediately after. We lono,.1 Vith a-= _00   PERELInN,_j~je., inicheskiy ordinator Study of the influence of the nervous system on the formation of immunity to tuberculosis In white mice; report No. 2. K izuch. roli nerv.sist.v Pat., immunA lech.tub. no.2:314-322 161. (MIRA 15:10) 1. '[z laboratorii eksperimentallnoy patologii i terapii (zav. - G.S.Kan) Leningradskogo nauchno-issledovatellskogo instituta tuborkuleza. (TUBF,RCULOSIS) (IMMUNITY) (NERVOIRS SYSTEM) (CAFF711TE-PHYSIOLOGICAL EFFECT)  FERUIMkNv A.Ye. bits manufactured by the VerkJmo-Serginokiy Flant* Nof tianik 7 X10,7: 15-16 JI '62. (~ffla 16 ' 3) (Ural Mountain region-01.1 well drilling-Equipment and supplies)  JFLI Aje klinicheskiy ordinator FF TAJN --- Study of the influence of the nervous system on the formation of immunity to tuberculosis in white mice; report No.l. K izuch.roli nerv.sist.v pat., immun.i lech.tub. no.2:301-313 161. (MM 15:10) 1. Iz laboratorii eksperimentallnoy patologii i terapii (zav. - G.S.Kan) Leningradskogo nauchno-issledovatel'skogo instituta tuberkuleza. (TUBERCUIASIS) (IMMUNITY) (NUIVOUS SYSFEM)  P3R3tL6)wJ. B.I.; IAPSMM, A.]. ----W*vMwwwIAw Automatic control of centrifugals for high-grade massecultes. Bakh.pron. 30 no.4:34-38 Ap '54. (NLHA 9:8) 1. Giprosakhar (for Perellman); 2. Krasnopresneaskly sekb o-r&fl- nadayy savod (for Lapshm) (Sugar machinery) (Automatic control)  -2 . 10 U:33R/Processes and Equipment for Chemical Industries- K-2 Control and measuring devices. Automatic regulation. A'33 Jour: Reif Zhur-Khimiya, No 3, 1957, 10670 Al.ithor a. 1, and Lapshun, A. I. Inst : Not given Title : Automation of Centrifuges for the Purification of RE)fined Sugar Orig Pub: Sakharnaya prom-st, 1956, No 4, 34-38 Ahstract: T',Ie proJected installation of an automatic control system for a battery of six centrifuges at the Krasno- presn.ensk Sugar Refinery is described. Completely a-atomatic startup and cutout of the electric drives for the centrifuges, braking, and stopping of the centrifuges, loading and unloading, water dosage for washing the drums of the centrifuges and for the wash s, ,jrup, and starting of the segregator are provided for. The entire battery of centrifuges will be controlled by one operator whose duties will consist in reZulating Card 1/2  IJSSR/Processes and Equipment for Chemical Industries--- K-2 Control and measuring devices. Automatic regulation. J,bs Jour: Rsf Zhur-Khimiya, No 3, 1957, 10670 Abstract: the length of loading of the "fugovka," the clear liquor feed, and all other steps in the cycle-as a function of the quality of the cooked liquor, The function and design of the various elements of the control system are discussed. Card 2/2  ACCESSION N11: AT4026343 8/0000/62/000/000/0021/0048 AUTHOR:,.P TITLE: Comparison of the paramoters of logical circuits using forrits diodco, forrito transistors, scimiconductors and vacuum tubes SDURCE: Konferentsiya. po obrabotko informatsii, mashinnomu perevodu 1. avto- niaticheskomu chtcniyu teksta. Moscow, 1961. Vy*chiolitellnoya I InIformatsionnaya tokhnika (Information processing and computer technology); ebornik materialov kDnferentsit. Moscow, 1962, 21-48 IWIC TAGS: circuit, diode, transist;or, semiconductor, vacuum tube, logical design, f3rrite diode, :ferrite transistor, circuit parameter LBSTRACT: The author notes that, despite the great importance attributed to automation, there are as yot no standards for the logical elements, of which automaUon, monitoring, c ontrol and tel emoixy systems are constructed, in this report, an attempt is made to (ompare the qiaRtfes of ferrite-diode elements, developed at the laboratoriya Elektro- raodelirovaniylL (Laboratory for Electroilimulation) and circuits in which these elemento ire used, with cerizin other concrete elements and circuits: ferrite-transistor, semi- conductor and tube.. T'hese devices are omblered by the author from the pDint of view of: Cold 1/3  15). WCESSION NR: AT4026343 irepeed of operattim; b) life-Ume;. a) economy, including the factors of cost, current ctonsumption and heat removal; A) complexity of the pawer supply sources; e) facility of installation and operation; f) mechanical strength; g) permissible environmental t~mpera- ture; h) permissible humidity; I) size mA weight. At the same time, a comparison Is (Irawn between operational methods with different elements during the design and exploita-' tion of the devices. In view of the complexity of the power supply system for ferrite-diods Clements, particular attention in given to precessive pulse sources, their efficiency, ad- Vantagen and aborkmmings. A comparative analysis was made for one of the basic logical. (Jements - "AND" of various types, as well as for the simplest kind of counter circuits. On the bade of the analysis made, the following conclusions are drawn: Tube-type cir- Mits, althougb sq;ertor In,terme of speed',A operation, yield to the other elements con- cidered in compactness, life-time., economy, etc. Ferrite-diode systems, oonstructed of materials presemtly least in short supply, are, in the opinion of the author, the most favorable for industrial automation circuits at repetitibn frequencies to 3-5 ko and, Per- an increase L*, to 10 kc. Increased frequency leads, In the "as of these elements, to in their current coasumption, also and complexity of the power supply sources and, con- 7 vequently, complotity of adjustment as well, resulting in lowered reliability. 'At fro- -300 kc, the preference, in terms of simplicity of the r supply sources' quenzies of 30 pows lerformanoe, economy, etc. 9 must be given to the ferrite-h-snalwWr 6laments. Com- be constmoted an the basis am ompdar od Information mochines should, evulantlYs j. J. Cwd 77,  4 ACCESSION NR: ILT4026343 Of high-speed (particularly, semiconductor) elements. 7bese conclusions Bore arrived itt through a comparison of eldnent parameters and simple logical circuits. Howyers 1h9 author points vat, for a strict solution of the problem of selection of elementat 4 Is ocessary to ootabler dw ebmak" of the device so a whole In emb ooncrets cam. orig. arL hut 12 figures wA I We. ASSOCUMON: None nuBmrmD.- 2ason DATEACQ: IGApr" ENCU. 00 IIUD CODE: CP NO RZF 9DVs '004 OMEP4,'004  ACCESSION NR: AT4026345 6/0000/62/000/000/005T/0081 WTHOR. ~erellman, B. 1. 'rITLE, Semiconductors in magnetic decoder control devices and fast-carry keys for ferrite'-diode parallel-action circuits SOURCE: Konferimtslya po obraWke informatsil, mashinnomu perevodu I avtomaticheik-' omu chteniyu teksta. MoscoW, 1961. Vy*chislitelluaya t informatsionnaya tekhnika (Information procossing and computer technology); abornik matbrialoy konferentsil. Moscow, 1962, 57-81 TOPIC TAOS: ch?cult design, semiconductor, magnetic decoder, decoder control device, ferrite diode circait, decoder, fast carry key ABSTRACT: The arti;le to in two parts. In the first, the author describes the mock-up of a 256-addresis decoder with a small number of control circuits. By way of IntroductLan, the circuit dLagram of a 4-addrese decoder is first considered. This device uses a set of ferrite ooreo, wUh rectangular bysteresto loop, through which there have been run, ao., cording to a deftilte law. w1res'alw* w1dch pass the pAls" of the covent for writing, forbiding and reading. The nvmber of oores equals the number of "put cdrculta; in this am - ftw. 7h9 operation of this ctircult is analyzed and Its charsateristics, are  1 ACCESSION NR: AT4026346 discussed. The pulse parameters of the forbid, write and read current are derived and the functions of Via control oipals 4n the circult arrangementhre traced. The author describes in detail the design of the control amplifiers and the phase inverters. The 256-address decoder developed is mounted on a textolite plate 5 mm thick and measuring 450 X 350 X 5 mim; the control amplifiers are mounted on textolite laminae 100 X 60 mra in size. The set, of amplifiers is located on the same plate as the decoder. Nonshielded wiring Is used in the assembly of the different unita. The rectifier unit for the amplifter power supply, Evq well as the elements from phich the pulses reach the control ampliftor inputs, are remoted from the decoder and connected with It by braided unshielded wire. The decoder cores are manually wound. In order to facilitate wiring, the cores were installed in groups of 32 each and later connected by crosspieces. The decoder with writing and forbidding amplifiers, as well as with inversion elements, was tested for the following points: 1) appearance of the %;rite and forbid signals; 2) law governing Vie selection ol.7 the, address as a function of the control signal code; 3) appearance of the signal at the oirtput winding of the working core and of the interference on the output windings of the unselectod cores of the decoder; 4) address sele9tion law, appoaranco of signal and noise pulses under the following conditions; a) change in the amplitude of Vae signals reiLchirg the amplifier input; b) change in the amplifier feed voltage; c) change in tho onvimimarW tempernture; d) extended. running. The results of these tests are 2/5 Card  ..'ACCESSION NR: AT4026345 given and interpreted. The withor concludes, on the basis of his study, that It Is advisable4o, design a control circuit for a magnetic decoder using semiconductor elemimts. The use of P14-P15 triodes In a parallel operation mode log In this circuit, a temporary but permissible raossurs. 7he employment of triodes In a mode close to saturation with Individual feedback resistance 18 ohms) for each triode w4 a current-equalizing reelstaftos of 100 - 160 ohms in the collector circuit makes it possible to eliminate preliminary sampling df the triodes. In addition, U high-quality triodes of the required power are avallable,, each control amplifier can be built with but one triode, according to the circuit proposed. 7be second part of the paper considers fast-carry keys using semiconductors 'for pearallel-action ferrite-Mode circuits. It Is pointed out, in the introduction, S"T. oneI of the defects of three-cycle ferrite-diode elements to the unwieldiness of the parallel- action cdrcuits. 7be fad that the operaft speed of keys used In carry circuits must be many times gmater than that of the magnetic elements is noted and the consequences of this fact, and the difficuld" to which It gives rise, are analyzed on the basis of various possible models; primarily through the we of ferrite-t&e keys. The shortoorninge of theme techniques are pDlnted &A. 7be author then describes a type-11311 fast-carry key,, developed at the laborahwip slikky amOddirovanlya VINM (laboraWry for Electro- a mmbiator the key, simulation) wMah makes two of elements. 7U torbid elements of through wbich pusse dw ftwo&-carry WSW, contsin a diode. oxifer-core trawformor and ohmic resWanos. Thus, On delay of the qLM signal to deformined, principellyt by Vera 3.16  ACCEMON NRt AT4026345 the properties of the diodes used and by the value of the load connected to each digit. 'rho use of type D10 diodes and high-ohm- loads made possible a delay per digit of not more than 50 millimicroBeconds. In the v~ock-up, containing nine keys, connected In an ar- rangement imitative of the circuit of a nine-bit adder, tests were run of the basic para- meters; mainly, the total delay, operability and stability. The key and its constituent i elements aredtooribedin detail and the test results am analyzed. 7be work demonstrates: the possibility of using semiconductor fast-carry keys in ferrite-diode parallel-action circuits. In order to utilize the keys in concrete models, it to necessary, as indicatel in the article, to Increase the amplifier gain fpctor and the ampUUAe of the output signal.. The principle, underlying the type 10311 key just considered, can be easily extended to the type IT' fast-carry kep.wifth us the subject of the concluding section of the article. In this section,-'the author describes type "III transistor keys for fast-carry circuits and a calculator in which these keys an used, based on the same principle am In the case of the type 11311 db)& keys. An extended checkout of various modificanons of the keys in me calculator and In other devices at different Umperatures showed that they have a high degree of reliability. During a year's period in 24 keys not a sWe component failed. Us delay in oto key to approximately 0.-05 micro"Conds. 81pal Wenuallon In 13 koys Is on the or-der of 30%. Fluottudica An-the parameters of 60 Giradt elements of " much -aptive e9sot an normal operation, nor as 60% and inlawahanging of do triodes ban no diss Card 4/5   -A 11223h-63i. BDS B/271/6-3/000/bWD36/043 HORS IWW=an~ B. I.". ITTIS A comparison of the parameters of ferrite-diodo', f exrite--transistor., emiponductor and tube logical circuits I IODICALI Roferativnyy zhurnal Avtomatikaj tolemeRhanilm i vychinlitollnaya to&uika o=& tekhnilm, j no6 4j, 19639 A abstract 4B169 (Vychislo i inf lJoscow, 1962.1 21-48) TaT; ':'he author gives descriptionsy and a comparison of the characteristics or several jloacs~,L circuits,(C) used in computersj telemetering and automatic core- t~ol* In 6hoosini; the type of logical elements, the apeed-of their operation corr- .=nly play. e the pHn role* If we-raise the high-speed-response of these elerenti; b~a factor of, onc~-and-one-half., it is possible to replace a Une of.paral-I alption C I~ry a~sequential-action.C., and.thereby lower the number 'of elements needect. AOsembly-and adjutitment are simplified, and reliability is correspondingly raised., Me circuits,~ halring superiority in high-speed response, fall behind when it comes t5 compaotiiess,, longevity, economy., etc. Ferrite-diode C are the most favorable 4r devices it' indus trial automation with repetition rate up to 10 kc. At Ire- q4enoies of 30- 1WO ko advantages in thD way of simplicity of power supply,, labor .,~rd   TATSM"VIGHp N.1 PERELIMAN, B. UBe of chemicals andenw echnology. Mor. flat. 24 no.8:28-29 Ag 164. (MIRA 18:9) 1. Plachallnik laboratorii Sovgavanskogo sudoremontnogo zavoda (for Yatekevich)o 2, Starshiy tekhnolog tekhnicheakogo otdela Sovgavanskogo oudoremontnogo zavoda (for Perellman).   77 i15004i48 p- matical formulae These, -in V nstances the h propriate matbe of thi tric-des (P16) in the open ers,AftiAu4; ~W otheraj. the resistance lag, a, mte ttm4diiistance, of the blae.-ked triode signal attemuation with the gate !in~~amolifier_input impedavve signal voltilge at-the amplifier base, 6 toped oind .0 T4 vit. M* m - or discusse the original cAliattor.-,du tt,-~bf -the amplifier triUle. The auth r) 6 Lrcuitry-`6f. ilk poxithel-action--cotinter- vsjng errite4riode_ eltments-,vith trans- k6 r_jz_dd.*!IAXi)II- .-I;ates, in the cairy-over circuits, designed in the' form of a 14- C&i4ractcristica of this counter.are describ salient ed: ,!-vi p e AND"-- gate-fi5,14- ferrite -diode th-positive. input t nts .-The adva 9 Wi e2ers IjUnctioh aleme ntages~o gave  .i1ftomdumm lawn= ~I 6-7. -"JW62 _0 b" at: re at h-the'. fl~st input of a gatz i while signal f ron a n ement loddeili,siltb5 other elements reaches the other (prohibiting) input, tile -;foul& not coincide (n time, Therefore, in order to ellminarn tho  1, k ICLI, 00 SM-Com-.--- Ec  'd-PIRS-AP7005605 Fig. 1. Memory device 1, 2 - Multi-aperture transfluxors forming the memory cell; 3 - coupling windings; 4 - vertical sensing lines; 5, 6 - horizontal sensing lines; .7 - sensing oscillator; 8 - vertical read-in and erase line; 9 - oscillator switch; 10 - signal inputs to the oscillator-switch; 11 - control inputs to the oscillator-switch; 12 - vertical output line: 13 - output indicator; 14 - horizontal output line; 15, 16 - even selection lines. by performing in it a number of logic operations during write-in, it con- tains two horlzontal selecting lines, one of which passes through the large and the other through the small apertures of each line. Oscillator- switches of p)sitive and negative polarity, and also of zero-level control outputs which are connected to the selecting, write-in and erase lines also contribu' e to the accomplishment of thpoe goals. Orig. art. has: I figure. [IV] suB coDF.-. 4:c,rd 2/2 L o9/ sum DATE: 15Dec65/ ATD FRESS: 5117  - , . :~ - I ; , --,Tl - . - - - - - - - .3  t; , .0 - 7kd7.- 16A aa-' avo" _itl~on, f ea it iu at d7 8, qe.,o PA nts -b*s C~:~technicatrequire i -which must bamet uch-,~a- source ~j~ schernAtic d Itagrarm of the-transistoriztid staft-stop pulue. atirce Is giver (two- It e;-transim!or j: plifier with transformer input), alonjj with oscillograms of -9 -s-ignals pj~oduced by the device. Imfestigations showed that f r complete he o 1j!an ell-a-tion ;k t!uirent pulse of not lesi; than 5A and a duration of not less than C hd,3'Larff required. The iuthoj: notes, in his CrIerall description of *he 006iAtIo" of, I:his device, that certain cancellation, iwdeii are extremely crift- n state- tIve- windingg of the -wgnetizad pores of tbe. si',-conil, pair of ferrite - Rode elemer~t s ~may b shunted by small xasistances,. both irm the input as well is froza the ~utputt.wfndilng* The shunting resistances are conatituted by the tin-ding- r_eststanc;ts~,of the first and third pair,of unmagnetized cores, these r(- - -.i:,iiiiiiric6b--hiiing::-c-,Di'nne'cted In--series -with the resistance-of the-diodes. Therefore, -d ir e d th ita i6h -lehgthenedl while the values of the current req  .Z_d z 'A Yi e its ris6-time or canc f A- is increased This. point is illustrated by n dx4mple an&,ionf, 9 ixmed exp~rimantnljY- Further 11tudy showed that tile first Aon 0 the. ~ra V start-stop puls,~,source,dtd not have suffic f t naistorized v Ottical Str&nthl' .ut. I P. e 6witchini; of cur. 4-- The a 06V therefore proposed _Stops or magneft C Sotirce) usingtransist-orized Ilt sfio'vn An tile av ir. 1 _:thdt this~ it i i,..~duce -'- i` i - 673teili. it possible to I.e. the -.nu h tr o t; odes in, the -g 0- b trftch~by.a factor, oi . j. - . -1 _20:.In:comparison with _5IiI_,:._II I't4 44raiiiej--ahA th' dime _b f 4- ---- - p- nsions;- y a-factor o ,-Tji4.xpaj-,j oint, however, i- Ji--that the trtiiitii6toa -in,' h n5d' ' w s dis- t a s itch oporate.....t1i a yulse- e'-with f- F ar Ies ~,~,perse _--pow-r* h- he a 6 ..ve he. tlee' ical d 'd, -t ith in-:,g r t rsiort,, thus ensuring t essary electr s;xeh art-stop-Uu1sas of -~-th* vq'., _gth_&r_ ill'W--system. -Th& st Alzed,form, duratica f~A- -a d- ws PP. i 6h. t 9'U all) Thi ge, 0.~, t t, 9e. P -01~'.go is_---a 1( a_- 6 -diffic- I. --A Vera _Xrv Ai4a` t a a t IFtarn - of timeFwshift r u itt del. -'-The--- - -An' - --.f r triodes is likewise re- _ru iii e ~ered-in_the' f a ~mo n er o 4iiieed,frow 4. to: 24~- - The start-ttop-, ~srwitch - proposed- by -the author. -is- diagTatrned eVp -ned the ~Artic-le- -- etmd---th-e -oper4ki d- df~_A' Iy4n ully~ Ati- 0 pose atart- :genera ur stop - source. is -elteacribed- The generator mock-up vith a 40-fe rite-diode elem!uL r -arid five start-stop switches connected in parallel-.vaa tested under lab-, ~7  000 HIM so M,  7WC-CNR, AT5025635 SOURCE CODE: UR12657/65/000/013/0086/010 AUTHOR. Mikolaye"Mys 1. F.; Perellmm, B. L. t.ORG:: /V :T1T1X:,:'High-fre1juency germanivn,alloy-diffused p-n-p.transistoi IT308 'SOURM. Polt roimdn1kovyye pribory.i ikh primenentye; abornik statey, no. 13, 1965, 86-i6o, 1P0PIC_-TA(;Br,.~gerk1M1UM transistor, 'transistor, alloy diffused pop transistor CT: v6e basic manufacturing processes and design characteristics of a new gar- manium allqx~-diffused transistor of the IT30B.-type are described. In the final p-n-.; structure. of i the - transistor, germmium acts as the collector, the thin n-layer aig the active bize.,:'sna' tbe recrystallzed p-layer as the emitter. The transistor, which ~'possesses h1kh2j1:stable ebaracterlstice againat external mechanical and clizatic.ef- fects, has- the f'olloving basic parameters: ax-cir-Am pemiak; ibie dissipated power, i150 xv; maximim.collector remitter) current, 50 mamp; cnllez.-.or capacitance, 8 jilif; collector tlmi6 6onstant, 500 nanosec; and naxiz= collector- eLd-.zer voltage, 12 -v. 'The IT308 transistor Is designed as a pulsed device whicb can operate on large sig- mals in satuTating-flip-flop circuits, blocking-generators, relays,,and logical and zoemory elewmts.l It can also be used botb as a bigb-frequency azo~lifler, a generator of harmonic oncillations of small and large signals, and as an element operating, in Cwd 1/2 62i.382,342.o2g.62 UDC  --- --- - - - - - L 9288-66 0  21-66 ENTCL)/E:-:G(k)-2/T/EWA(h) IJP(c) i L3,3 ACC Nits AT6MM2 SOURCE CODE: UR/265V657666T614/6063/00-1~ AUEHOR: _17iko1aV,-vskiy, I. F.# PereVman, B. L Skorik, K.-I.j, Zotova, L. 0. CRG: none TnU- -:_'-1bw-,-t4=pxature parameters of translator SOURCE: TolmpraiOdnikovne, pribory i1kh primeneniyaj obornik statey., no. 14, "19652 3-19 1 DPIC TAW: gera~Fmli trawlst4r,, parameter A J~STR,~CT. Theoretical and experimental data regarding current amplification and I t and outr mpe ature put'impedence.of,various t5rpesof,the transistors in the low-te r PFu kanges.srelconsldered.- An experimental liquid nitrogen refrigeration chamber is de- cribed; this chumber keeps~the temperature-of the medium Within the low temperalure rangep dolm to 3600,, vith deviations not exceeding + 2C. The alwof the study uas to fill the eidet-ing gap in the theoretical and expe~Rmental~ data on the low-freqaen- 0 operation vermanium transistors In the low-temperature range down to -MOC., CrIapho and data presented In the original article on temperature dependences of tran- ristor electric parameters are based on measurement results from 10--40 transistcrs ccr each. type tested. Orig. art., bas: 14 figures, 2: table, ond 23 formu3zo. D(P] EIM CODE: ORIG M7: 09/. SUBM DATE. none/ 003/ Ot r(EF: 002/ "A uDc. '621.362.342.029.45,,  PERELIMAN, B.; Y~TL.K~'.VlCli, N.; STREKALOVSKIY, Ye. ,'. m" ~.u t ~ -, __ -;,;:,tic depr-Ation of bronze an a rltcel M~,r.fl:t 25 ncl.2:32 Ja 165. (MERA 18:12) 1. StarslAy tel iclcg tekhnicheskogo otdeja sudoremontmogo zavoda v Sove ~ v gmani (for Perellman). 2. Nachall.-ilk laborat,orii eudoranontzingo zavoda v Sovetskoy gavani (for Yatokovich). 3. Nachallnik takhnologo-~alikilVatsionnc)[,,n byuro audoromontnogu zi:,.,uda v Sovet-skoy gavanl (for Strekalovahly).