SCIENTIFIC ABSTRACT GEORGIYEVAKY YU S - GEPSHTEYN YE M

MC N& AMC '"0 7te Ir terhqt~~s of atmospheric absorption of linE ar radiation of iheated gas rows) In the near-infrared region of the spectrum were ~examined ini alrepoi~t i. .!* ~by -Kuznotsova and M. V, Podkladen The latter also d~114eriad a paper on the limits of applii:ability of sche- !MIatic mode*ef abei6tption. bands in describing experimental results. tations Of ~ the absorption by a horizontal atmoupheric layer of ;4 Investi the radiatioO 61 a 4ightly heated absolutely black radiator were reported _y (L ningrad Electr, hdAPL :~uzqLl~o e '.cal Enginep~rin Xg,~Argsbk9y delivered a paper on the change Of the a ectral composition of long-wave ascending fluxes in the lower layers of 'the troposphere under the influence of absorption. A theoretical~invesdgdtion of the influence on the absorption-line profile trong Os~ s orptiol hod a strong electromagnetic field was made by L-I. NesmelovaA, . D. K 2 9 CTY, N. I. Ippolitov, and A. A. Drlov (Siberian t e,$ A to). Other V ea, were: XZ V. A_K ;kpov, and _4~b P Ye. a of experimental investigaLons of the spectrum T Del"Irt on ihiai r6bult absorl tion Ili the 2. 06 -p region and the patterns (if distribution of 01002 -optical croi~~66ctitjna'for individual lines of a band; V. 1. Dianov-Haokov CA~O 4/T  ACC op `6fithe Atmosphere), on the expecled influence of t0i J~ ahq~ it icoiiiplexes 6n the transpanency of the atmospheric, T121 ground la: inl] ;6.2A-'0.236-p region; V. A. Afanii!j!y~y, V. iA A evs ai the design of an qv~ and.V C I-levs-10Y ~Inst"t,i in; bat- in &qri the pr ciple of heterodyning, to measure the atmos- pheric at r-41d atiii i d a laserbeam, Yu, S. Georgaiyeviddy, V_ 1, DA'anov- In 1~w 'and G. D. Turkin (Inotitnte of Physics of the Ov, Ifistminents to measure the spectral trans- sip o 1.41 at) (ire wit Oartncr!d i~e 10, ph h automatic compensation for interference caused b' qk horic y I ence. m4ql =Or1tO11,00re'on,the problem of light'scattering in the atmosphere n the th o ry oUltiple light scattering, for example, L-M.._ a. d of including, ! i omaMv a.titulio 161 -Physics of'the Atmosphere), on radiation transfer 'In f6rbidd" bands of absorption; 0. 1. Smoktiy (Leningrad State University), ..on computing the sphericity of the atmosphere; Q,_M,_.EKekqv (Siberian om computing the intensity of light at small imgles in the case ~of large siuRtering particles; L. M. Romanov. L. I. Xoprov. and M. S. h' p. Onstit0te, of Physics of the Atmosp e ~5_,on-&e-Infiluence of scatteringJ0, the ti;#Aosphere on spectral transparency; L. G. Bor2yq Y I (Tomsk rpjty), on computing a mean field in a scattering I'Laedrliin baOlisi of Maxyvell.equations. N. P. Kalashnikov and M. I, 04 e ,:~ALtprd 5/7 ------ ----  ~'C:C NAt V 6e 11raz co ring PMsics Institute) reporLed on the use of gin, i~ie quan #dechalhiclal approach to investigate the passage of a narrow beam of liglit through ~a ocattering mediurn. A. P. Ivan ov Unstitute of Ac es) revoried on the results Ademy of of of a light field In models of strong scattering xnedia. Th,e i-C-sulis ~o,f investigating the optical properti.es of clouds on rnodel xnedlt:were ~dqhtained In a report by G. K. Illich (Institute of Physics Of the Belclin4isim, 0deni y of Sciences). K.' -Sh-ifr-iii, A. Ya. Perelli-A ID, a n ~Main Geophysical Observatory inieni A. I. ~ ~oeXLov) d V,, 41q~~ ~es ~iethoc 0i, computing the spectra of scattering particles from cribe i6tctra ti f the atmosphere ant. indicated certain data on the ansparency o CW'iteria fbi i4ectho Apectral, intervals. YM. S. Lymb ztfLeya (Institute -Physics 0 he A Osphere) reported on rneasurements of light scat- s' '! Ii: toring at AII &I Os and on the influence of such scattering on the results ineasur ithe 9 6.ctral transparency of the atmosphere. In 44 16eri~ i"istitute) work, interference in the case of light scat- t~ring at s tigated. The report of I' ~e6~was Inves 'd I A of the Ka e zakh Academy of Sciences) described a Astrophys; A of t .01, t properties of the atmosp~ere-in different spectral 'i-egions 9y, and _y*in .. .... N., M4 tr V~j z -ca) -ui;ed the Ulbricbt :j ~"6f-4 6/7  e pur6-11ght absorption in'kerosols- k~0 N_, --A. Che _g (Siberian Institute)' v, pd y p: ~sented aire rt on e results of measurements of ciznplex indices of U iter-in the to 20 mion. UvbiiA ~,6poA Were presented on investigations ol' artificial fogs. r examp ge O_V (Leniagrad Electrical It; 13. P,~,j4pqrev and A. V. Aleg Engineeriql 11wititule) reported on their studies of the attenuation of long- W*re radiation in arti4icial fogs for regions of the specl rum from 0.5 to 200 p. The;lr~sport 69 ghlIgmij (Tomsk State Uriversity) compared 21- eoerirnent~1~hd c~irnputational data on the coefficient of r:adiation attenu- i 'aiion in artifi,cW fqgs, in the 0. 4 2 -.14 -ju region. In the se experiments a. -,d tailed me suremqirit7of the parameters of the microstructure of the fog ~w s made. 9 tU1tani6I6ii*s1y. Ilie results of experimental and theoretical it vesttgati of st~,ong fluctotions in light propagatior in a turbulent Mosphere ;were r*rted by Vj,_TAMraky, A.-"usich, 164tute ~iA Physics of the Atmosphere). And, lastly, tted 0 1 t e effects of atmospheric tuFbulence on laser com- CaU60 I4~i VSB; 4o no- 31 o; 4V CODW'~JC DAM none  A C--- o') "a C, Yu. . ........... SS, oI'L II,)rjics of -the At..-,o:; here, AN, SS -1 (Ir,,,t4tut, fiziki atmosfery for investigating the spectral transpu-cncy of the atmosphere, ni6h reso-, ion t 1'. Ut SORCS: AN SSSR. Fi-:.ika atinoslo-y 4 okoana, 2, 110. 5, 19", 1,94-500 xIL;paroncy n 'Uho rogion 0.37-1.14 ti ir, with a resolution of 1-2 Adoocribed. Lao wpparatuG is pxr4 of the fiold apparatus croated at, the optical test. g.luands of tho DlotitUto Of Physics of tho Atrmphoro noar Zvonigorod) dcDignad '&or multidiroctional invoatigation o.*' tho optical proportioa of' the al.-mQuphora, 'raoro are two min partas roe oiving-r-,,cording (a opactral instrumrzt and a roeordor) and a paarwz; over a field vurroundoia a o,' .L-Ove CGr4 1/2  L 102,35-67 ACC NR: M17003076 "IQ zol al1r:,100. 7110 1(!','gLh of tho path can be varied iij) to 1,300 m. Ali 1IFS-12 upoctmmotor -- double ni.-rw mcjnochroi:~illl,or Mt diffrac- tion -rating -- io uuoa (6W I-Inou/m, world-ty, area J40.,~!50 mm). Yhoto- mxltiplioru an usod In the recordiii'g. 'i7na apparaLuu cw,. be uuod oV,.hor or The author than1w G. V. Rozenberg and V. I. Dianov--Klokov for his interest in this work and ."Or his valuable advice. He also thanks V. S.- md V. Ya. Usaohey for aasi3tance in the completion of this work. Orig. 8 1, "PIT gures. J art. has: ZS: 37,7101 SUB CODE: 04 SUBM DATIE: 02NOv65 O;UG JW: 001  GEORGJEnC, E. Dr. Lea Schmidt and D. Philips' Gran2loze - review. P. NAROM SINW. (Drustvo sumrskih inzenjera J taanicara Boane i Hercegovina) Sarajevo, Yugoslavia. Vol. 12, no. 4/6, Apr./Jwae 1958. Mmthly List of East 1kropean Accessions (EUI) L(; Vol. 91 no. 2, Feb* 1W, Uncl.  Vaccination vith Xopr m kilo live attentuatod polio vaccine in the a" a of Gdamsk and Olsztyn provinces. Il '1. Investigations of the rise of antibodies in the course of vaccination with Koprowskils live, attenuated polio vaccine, Bdl, Init. 1%rine M Gdm=k 12  c GHORGOBI FOK, N.V. -- Nain peaks in the brightness waves of electrolumine8conce. Opt. I. upeldr. 9 no. 6:?75-781 D 160. (HU 14,a) (Lumiasecence) (Zinc sulflde) .11 I  AUTHORS: Geor6obi&x1, A.11. and Foic, M.V. SOV/51-5-2-11/26 TITLE s Investiration of Relaxa';Ional Processes in Elactroluminescance (Isfiladmalya ralaksatwioanykh prot4ossav pri alaktrolyuminastsentsiij PM OD I ULL tOptilm i Speictroakopi~-,&, 1958, Vol 5, TIr 2, pp 1,67-171 (U,3SR) AMT,(AM The authors studioi ralaxational processas in emission by an olocrLroluninescent capacitor in order tc elucidate the role of polarization charge in elactrolwDinascarice. This polarization charge is produced in separata rrains of -~.ho phosphor (surrounded by a dialactric) by the action of the exterlutl altt)raa-'Un- electric field. The maguitude and digtribution of +.he polarization ch-,rZe depand on the amplitude of the appliad field, rate of 711ianGi of tais field and sometiaes on previous history of the capacitor. The polarizablon ehar6e, distorts the field in tho capacitor ard coacantrAtes it in a certain small region. Thus in a4 elactrolwairl-as cant capacitor we h178 '.WO rer,ionss a reGion of hi,;h-field conawtr-ition awl a fieli-free To stady the processes owirring in two r,36ions the authors inda some rioasurwants on capacitors viith p-osphors - All Card 1/3 maamarwients ware Madj using sywaatr1c.,.l trao3zoilal oalses of 200 0114  SOV/61-6-2-11/26 Invsstigation of R*laxatioaal Procasses in SlactroluLain3scance freqpancy, 500 V waplibude and the pulse-frout- slop3 of 1.42 V/twac- The Wilckneso of Vi-.a capaoitor viau 0.2 iaL. Tho authors invoatlgat&~ the tam of brij~iWass viavds, the ratio taLnva3n the alternating and conxtaiaL aixapouonts of alectrolujainas cane a ab a h4ction of flie fom of the trapezoidal pulses, the effect of r-id and infrared light on th(� form of brightness wavua, and oscillogra;iLs of ritie carvus of Ilectro- 111mirescence. -The ZaS-GuAl phosphors L.sad had from 5 x 10- to 3 x 10-3 &/g of Ou, aad fro;.1 6 x lo-4 to 2 x 10-3 IV& of Al. The phosphors were proparad tit, 11001C ia li.,.i o'.' at 10000G in a aii-tture of E,,S and HGI, Tbo following results woro obtained. (A) The briC,htness waves had the fona sho%vn in Fig I (curvas 1). Curves 2 in Fig I show the applied trapoz6ldal voLtugo pulais. (B) Mau brightness of luminescence depends an tho cunplitade and frequency of th,~ applied field, and on the slope of the pralse-frent (Fig 2). (C) The ratio of tho constaint and altarna-;Ing components of alectro- 1wnineacence depan4s both on freqaaacy and the slope of the pulse froab ou the a,)pliad field and Is practically independent of the field amplibxd3 (Fi6 3). (D) Do-oxcitstion witii long-mavelangth light has ,.L at-,rqnr,-3r effect in phosphors which cai: stora large li,~ht-sums and Li 1;,iis case attly conw':arLt co q)oiiuii. of alectrolwaines canca is -ard 2/.3 door jas ad lu phosphori Milch store si.all li,,,bt-suins rud lijit loviorij  SOV/51-5-2-11/26 Jnvastigitioj~, of Raja-atioAal Processes in BlectrolamJ.nescence iLls-) the altaraating acraponent. (3) "Mien the altgrn3.ting field is switched on the cons-~ant and alt),raat1n6 couponents of alectro- luminoscance grov at differant rates (t.-~) constant ccviponent grows more slor"ly as shown in Fig 4). The wathors ~ivs the following tout-ative explanation for the observW- behaviour oT &Z-GuAl. The field-frea region In the capacitor extonds throiAghout %ost of the capacitor and the region of hijr)i field coacentration is near U-ie electrodes. The alternat caL-pon*nt of elactrDluminescence arises TraL liberation and subseqaent recombination of electrons in the high-field region. The constant c=poneat of alectrolaminescoaca is due to procasses affecting holes and electrons, which occur in the field-free region. There are 4 f i6ares. and 3 Soviet raf areacas . AN O'M 110N iFitichoskly iautitut im. P.N. Lebeleva, Z SSSR (P~Iysics lustituto imoni P.N. Lob*Jav, Academy of 3cioncqs of the U.S.S.R.) SUMaTTEDs September 26, 1957 Card 3/3 1. Phosphors--Luminescence 2. Electrouagnetic waves--Polarization 3. Electromagnetic fields--Applications  3805~ R S/051/60/i)09/006/011/018 r,201/r3lit AUTHORS; and Fok, M.V. TITLE: Principal Peaks of Electroluminescent Brightne.5,9 Waves PERIODICAL: Optika i spoktros1copiya, 1960, Vol. 9, No. 6, pp. 775 - 781 T_rXT: The authors studded ZnS.Cu:Al phosphors i,*ith 10-3 g-atom/g-mole Cu and 10- Z-atom/g-mole Al. An oscillo-ran of the electroluminescent brightness (Curve II) is shoun to-ether Ifith an oscillogram of the exciting sinusoidal voltage (Curve 1) in Fig. 1. The brightness consis*,;s of --n alternating compornt, known as the brightness wave, and a constant component denoted by B . -The brightness wava has a principal peak, denoted by A , during each half-period of the exciting voltage. Under some conditions a subsidiary peak (6) appears in the brightness wave; this peak is usu-Ily weaker than the principal peak. The tvro peaks are resolved better wben,the exciting voltage -siraveform is trapezoidal (Figs. 2, 3). Fig. 4 shows positions of the' principal brightness peak as a function of the Card 1/?  S/051/6o/oo9/oo6/oli/ol8 Principal Peaks of .... 1:201/E314 amplitude of voltage pulses. Figs. 5. 6, 7 give the "critical voltage" as a function of the front rise-time of voltage pulses (Fig. 5), and as a function of temperatures (Figs. 6 and 7). By the critical voltage the authors mee.n the voltage which empties even the deepest localization levelf, in the phosphor. The form of the brightness waves showed that, at high applied voltages, electrons wore liberated primarily by electric fields. At low applied voltages electrons were freed by collision ionization (at low temperatures) or by tunn,311ing through pptential barriers (at high temperatures). The optical phonon energies and the energy depths of local levels in ZnS were found from the values of the critical field intensities at which complete liberation of trapped electrons occurred. The optical phonon energies found in this way were in good agreement with values deduced from the vibrational structure of the "edge luminescence" spectrum. The level depths agreed with the donor depths found from the equilibrium density of free electrons in ZnS:Cu crystals. Card 2/1  S/051/'60/009/006/oil/013 Principal Peaks of L-201/!:314 There are 7 figures, 2 tables and 13 references: 6 Soviet and 7 non-Soviet. SUBMITTED: May 26, ig6o Fig. 1: Y Fig. 2: =77- 0 I'lic MCKTIM.1 JOM H INT, QVil it lilt 111111 Tpillh- w)aGy)f:,-iaK)lUe.Nl ;Rell Pac. 1. Ocgimorpammu nPROCTIll iioa6),w,Awoiqarc, Hallplim- Card 3/11' Hag t_ 3  GEORG-C)BIANIt A. N. Cand Phys-Math Safi. - (diss) "Kinetics of electro-luminescence of ZnS-Cu (Destrio effect)." Chernovtsy, 1961. 9 pp; (Min- istry,of Higher and 6econdary Specialist Education Ukrainian SSR, Cbernovits State Univ); 150 coDies; price not given; (KL, ?-61 sup, 21.8)  MMGOB;94 AA,; MKI M.V, I .-- Pftoess detamining the voltage dependence of the mean brightneos of electrolminescence. Opt. i spektr. 10 no.;!:188-193 1? 161. 1 (KIRA 14:2) 4minesoence)  GEORMBIA1119 AJL; FOK, M.V. .. . ..... Dependence of the phase of brightmess waves of electmlumineacence on the ;arameters of the exciting voltage. (~)t.i spektr. 11. no.1:93.-97 Jl 161. (NIRA 14:10) (bminescence)  GEORGOBIAIII A N ....... Excitation of eleotrolumineseence in zinc salfide. Opt, i spektr. 3-1 no.3:426-,428 s t61. (MIRA 14-9) (Luminescence) (Zinc sulfide)  S/05.L/62/012/oo6/009/020 E036,/E4A AUTHOR: Gg-pygqjb an i TITLE! The influence of the bond type or crystal phosphors on their electroluminescent ability PERIODICAL: Optika i spektroskopiya, v.J2, n-3.6, i962, 746-749 TEXT: A qualitative comparisors is given of the ability of materials with ionic and with covalent type bonding to display electroluminescence. To produce electroluminescence it is necessary that there are mobile charges in the crystal which are accelerated by the applied field to excite the radiation by collision processes. The motion of the charged carriers is impeded particularly by lattice vibrations. In ionic crystals, in which alternate atoms are differently cha:-ged, the local field, due to the atomic vibrations, greatly exceed;s the applied field and reduces the carriers mean free path to the order of the lattice constant, and they cannot acquire sufficient energy to cause ionization or excitation by collision. Local fields are much less in covalent bond crystals and the mean free pathL, are several times larger; - the carriers can acquire large energies Card 1/2  S/051/62/012/oo6/009/020 The influence of the bond type E036/E418 to give impact ionization. The covalent type crystals are also more likely to support large fields in limited regions of the crystal because of the ease of formation of space charge. The advantages of covalent bonding in supporting electroluminescence are illustrated by its non-occurrence in crystals with more than 5W ionic bonding. The possession of other luminescent properties is also required for a material to show electro- luminescence and thus it is not expected in the elementary semiconductors which have no ionic bonding. There is I table. SUBMITTED: April 8, 1961 Card 2/2  S/051/62/012/006/020/020 E039/'E420 AUTUORS: (leorgobiani, A..V., Golubeva, N.P. TITLE: The excitation of electroluminescence in alkali-halide compounds Pi-IRIODICAL: Optika i'spektroskopiya, v.12, no,.6, 1962, 8o2-8o3 1EXT: The influence of the type of bond strticture on the excitation of electroluminescence discussed in a previous paper is reviewed. Calculations are made on the excitation of electro- luminescence in alkali-halides and compared with experimental results obtained for thin ( - Ili) films of C~sl-Tl, prepared by sublimation in a vacuum. The sublimated mixLure contained 94'. CsI and 69o' T11. A layer of aluminium formed a secondary electrode and a film of barium titanate was used as a protective coating, Excitation was accomplished by the application of about 120 N' at 20 kc/s and the electrolumineacent spectrum compared with the luminescent spectrum excited by radiation from a The two spectra (UFO) lamp using a Yq)C-2 (UFS-2) filter. are very similar. Thtse CsI.TI films are electroluminescent in fields of about 2 x. 10 V/cm without breakdown. In thicker films Card 1/2  S/()51/62/012/oo6/020/020 The excitation of ... EO')9/E420 avalanche breakdown occurs with fields of suggested that this method can be used to in any of the alkali-halides; this would preparing thicker layers and using larger the experimental difficulties. There is SUBMITTED: January 29, 1962 3 X lo5 V/cm. It is excite electroluminescence lead to the necessity of, -/' fields, hence increasing I figure. Card 2/2  L219h 5/051/62/013/004/009/023 E039/2,491 AUTHORS: Georgobiani, A.S., L'vova, Ye.Yu., Fok, N.V. TITLE: Absorption of energy in electroluninescence PE1110DIM; Optika i spektroskopiya, v-13, no.4, 1962, 564-568 TEXT: Maasurowants are made of the enorgy absorbed from tile electric flold applied to an electroluminescent condenser.when a sinusoidal exciting voltage is used. These measurements are of importance in the study of processes occurring in luminescent materials and are of practical value in determining the usefulness of luminescent matorials as light sources. The current waveform produced by the applied sinusoidal voltage is markedly non-sinusoidal. Instantaneous and avorage values of the power absorbed are obtained by means of a galvanometer oscillograph method And the average values are compared with values obtained by means of bridge measurements. The accuracy of relative power measurements using the oscillograph is 5'10' and for absolute values 12%. The minimurn value of power measured is 0.008 mW for 50 V applied and the maximum is 100 mW for 1000 V applied. The power waveform is also nonsinusoidal and the nonlinearity increases with Card 1/2  S/051/62/013/004/009/023 Absorption of energy ... E039/E491 inc,,easing voltage. The ZnS-Ctx,Al as well as the ZnS-Cu from two other sources used all contained chlorine and were in layers 0.03 to 0.04 mm thick. Measurements were made at room temperature using a 50 cycle voltage supply. A 19 (FEU 19) photomultiplier calibrated against a thermopile was used for measuring luminescent energy yields giving a relative accuracy of 61/0" and an absolute accuracy of 30',.,. As the valtage is increased, the clectroluminescence yield passes through a maximuza -l,4 of the 'absorbed power for voltages of 200 to 275 11, comparable for all the phosphors. The bridge method gives a value of the yield some 2550' lower than that determined by the OSC:Lllograph method. Maximum light efficiencies are 8 to 9 lumena/watt. The results are compared with theory and good agreement obtained. There are 4 figures. SUBMITTED; July 21, 1961 Card 2/2  ACCESSXOM NRs AT4001249 8/2504/'63/023/000/0003/0063. AUTHOM Goorgobianip A. N. TITLE: Electroluminescence of crystals bOURCE: AN SSSR. Fizicheskiy institut. Trudy*, v. 23, 1963, 3-63 TOPIC TAGSs electroluminescence, luminescence, crystal electrolu- minescence, electraluminescent crystal, zinc sulfide electrolmmi- nascence, electroluminescence excitation, electroluminescence ca- pacitor, luminescent material# electrophosphor, ph6sphor ABSTRACTt This review article deals first with general problems of electroluminescence of crystals, such as ionization by an electric field, impact ionization, the concentration of the electric field occurring during luminescence, and a classification of electrolu- minescent materials., Blectroluminescence of tinc sulfide and its. use an a luminor is then described. Blectroluminescence van excited Card gj=i-~ list  ACCESSION NRt AT4001249 in capacitors with dielectric of pressed ZnS-Cu,. Al (Cu 5 x 10-4_. -3 -4 10 10 _ x 1073 and Al -2 g-atom/g-mole) and the main brightness peaks identified. The temperature dependence oE the critical volt- age of the principal peaks of the brightness waves is discussed,- along with the dependence of the maximum principal peak on the fre- quency and amplitude of the exciting voltage. The constant compo- nent and the average brightness of the luminesc9nce are calculated. Various theories of the mechanism of excitation of electrolumines- cence are discussed. The energy absorption during luminescence is estimated and the energy yield of electroluminescence calculated. It is emphaelzed in the conclusion that although tests with single crystals will cast more light on electroluminescence, the informa- tion obtained in such tests in not directly applicable to powdered luminors. "I consider it m .y duty to thank 14, Vo Fok for reading the manuscript and for valuable remarks.* Orig, art. hast 72 formulas, 38 figures, and 1 table. Card 2/3  ACCESSION kiRt AT4001249 ASSOCIATIONs rizicheskiy institut im. P. N. Lebodeva AN SSSR (Phy- sics Institute, AN GSBR) SUMITTED: 00 DATE ACQ: 30Kov63 ENCL: 00 SUB CODBI Ta NO REP SM 054 OTHERs 072 card 3/3  FV i~1 711. P;g, :1; Jj ;j it k 1., pe tr6lualnespence y"I'ald as: o not I ~~Ai phosphor 7;i~ A kit spe A it4kopiya,13 4;64,- 1962- and- -Ibid.-' i:401toge- dependence of the elect:!olumineacence yield 61 1 nP... Cm.'Al lho~ capliatois. . In the present wo:*, using the same ex- j (16saribed in the first reference) the:t investigated the tem-! I Pori montal te;.c tue I pert, ture I depem e it the voltage dependences at differew: temperatures of the ele(~trolumineift"O' e 01.1 J;~o Same phosphors, 7be phonon mechanism is considered. Curies for th~io lillOorbod by the phosphor-filled CaPaCLtor as a function of thelvolta and 40M are given; as are plots of the electrolumines- lce~ e yield o it 1140 204 and 3990K, and absorlj)cd energy, electro- lumtescance b, !I nd yield as a f=ction of the temp?ratur4 (see Enclosure The Amt11441 1 13 t irr: 16; the Sollowlsig empirical formuln for the brightness: IV- 6i  44J -V bw' 4 'INA.: ectr a* i 0 66 I~i mihOlmt cell Is a rather %.omplicated el ic I a A moke omise model is necess.Lry to obtain better ;ygl,gp o 106~t.qbit~ tho ek$*tjmdat. Orlg.art.has: 8 1-woulas, I table and LAM J~ "i; ji if :~*Juia ENCM 01I 06 OTHER: 000 ilA Ti p 0 Jilu  /A ID '168 IMSS 11M 8/051/63/015/002/102,66/0, r, k M V ,k~'Cll 1~iithll* - ~1_ the ie absorbed, emd, brighttess J! tj 77; lux n~ k pj *a V 15 no.2,1903, 266-2(;8 -1 4.0111040, brightness vave lumiii ent capacitor - a STAA= C 0 i!,iji~eiiigated~! um the sue eleotrol. I t capacitarn av X.,! Ob I a 9, 1960) using a clituit "t~ I spektro, a paitanca,_-The luxiniscenos was excited-by-a-86-- asperature. A loop oileillograph was used to 01 J&~ V t1a t, td tho 04 uos of V, the current 1, the ;owor W absorbed by ~Itor il dl, t%e i knoos D of the emitted electrolumknescente. A typital poup ~m iin the Soclomure, Analysis of the oscillograns recorded or; ilfil ~1 itt ~06 ki tio"A"MA"in1v changes In ComtensatAnty ~Ik"MLMtAnt-_M n1l'OHSICP ear- ris Ca 1,;:  jv tL t6- o~copts--regardingittio,kinetics of ol-i;ctrolumi--~ t6.110d 08- by the authors (above reference, AN*Cseorgobis 'd M ~!s*ktro.jllj-931 1961, and A.N.Giorgobiani, Yo.Yu.Llvova T~! Jok, 1% regions of 1-,~ 14, k613'~ 4184j 1962): electrons are released pftuarily in the 1~~ 4xlz~um tijil OrO,.:l*o&0d In the. immediate proxUlty of the electrodeol 'oleo-1 t electrons arrive in the region of high aoncentra-i,.~, t ioliji od. Qq In line with these concepts tlie brightness munt Attain t:1 on o ja peak ~114~ betijiri~theourrent does; which is borne i:ut by the experimental oirves. 0*kjt"j'art,..1 03 formiLLas and 3 figures. j-4 0 1 6 1 D689063 to t C~*4 11 NO: FW SM 00  ACCESSION NR- Ap4o2636i -'------Z/0055/64/oi4/003/oi67/01757 AVMOR: Georgoblani, Ao N. TIM: Electroluminesceace of zinc sulfide SO=: Chekhoolovatskiy fizichookLy -burnal, v. 14, no., 3, 1964, i67-T5 TOPIC TAGS: electroluminescence, zinc sulfide, zinc sulfide luminescence, I Am no - phore, ZnS-Cu luminophore ABSTRACT: The electraluminophore ZnS-Cu, Al with a copper concentration of 5 x 10' to lo-3 gram-atm/gran molecule ' of 10-4 -3 and aluminum concentration to 2 x 10 gram-1 atom/gram molecule vao Investigated. Two types of electroluminescent capacitors were produced from the powders. They differed in the form of the dielectric. Since:i the-luminophore In the electroluminescent capacitor Vas blended with a dielectric, an alternating current voltage of sinusoidal and trapezoidi I form vas used. The trapezoidal voltage was shaped by an amplitude limiting block with "trimming" of the sinusoidal voltage. Author measured the absolute. enerj7 yield and its depend- ence upon voltage In ok previous vork (A. fi. Georgobianip Yij- Yu. LIvoya and M. V. Pok, OPtika I spektrookoPiP 13 (1962., 564). The bridge 9vithod gives understated Card 1/2  0 ACcEssioN NiR: AW26361 values for ihe ener& yield in comparison with the oocillographic. The maximun value for the energy yield meas6red by the author was q - 1.3%, which, for green light, corresponds to a luminous efficiency of about 7 Lm/'W. Agreement of theory vith experiment will evidently be better if it is to be assumed that the holes can vithdraw from the lumkinescence centers under the action of the field. Inasmuch as the mechanism of their liberation is unknown, such a computation was not carried out. It is also certain that the granulometric composition of the luminophore exerts some effect on the measurement results. Orig. art. has: 3 figures and 6 equations. ASSOCIATION: Fizicheokiy institut im. P. N. Lebedeva AN 13UR (Physica Institute., AN SSSR) suaaTm: njui6e DATH AM: 15Apr64 ENCL: 00 so COM OF000 Nora BOYS 011 006 Coed 2/2 ------  VREDEN-KOBETSUYA, T.O.; GEORGOBIANI, A.N.j GC,LUBEVh, N.P.; GRIGORIYEV, N.CI~"'MVDRWjw,,NikDq MORUGEVSWEZ, Z.L.; PETUKHOVI, M.S.; RABINOVICH, N.Ya.; FOK, V1.1%; KILAN-44AGOFIKOVA, Sh.D.; ANTON OV-ROMANOVSKIY , V.V., doktor fiz.-mat. nauk, oty. red. [Luminescence; a bibliographic index for 1~47-1961] Liu- zinestsentsiia; bibliograficheskii ukazatell, 1947-1961. Mookva, Nauka. Vol.2. 1964. 378 p. (AIRA 18:4) 1. Akademiya nauk SSSR. Sektor seti spetsiiWnykh bibliotek.  MCC CODE: UR/0161/661000/004/1273/1275 AftOR: _AOObh V T, A-X-t, S~~S- 9. S. SX lst#140 1,06 P. N. Imbedev AN GSSR, Moscow (Fitichookiy institut M TX,TLX: Scme, olsctrijcm: .1 rharacterizitics of zinc sulfide ei 3.0 Eystals 'OURCE . FL816, t" wl~jo tola, v. 0, no. 4, 1966l 1273-11275 TOIC TAGS: zinc a4fidet single drystall electric property, crystal anisotropy ABSTRACT: 7 tudy the electrical ch!6racterjsiLgj_qf large US single cry*- i thij iixilt at tole $ft" 8506ru-nder Inert gas pressilre by a new method developed f0 din umnder the tion 01. A. Sylooyev. These are hexagorial crystals with no traces of cubic. struct6a so t.Siit contact and surfact phenomena heive no effect on the electric- al seasuremendo. Tho specAmens studied had dimensions of 4 x 48 mm. The tempera- %ure curve fi* vlect;r1cal conductivity is approximated by two straight lines in lno atiId 1/7 coortin,MtO114. IThe slope of the low-temperature line corresponds to an acti- Viltion energir oil 1.21$ 0,07 evt while the high-temperature tection corresponds to an eliexgy of 1.15 A 0.00"0. This section may pr*bably be zittributed to natural condue- tivity since dilta bii the literature give the themal width of the forbidden band as 342 ' 0.2 av. ExtMoolation of thin low-temperature section to room temperature gives 1/2  1 2636of;P66 aCC NR& APS012501 an, estimated! 11441sti t~ Of bIO2 floce. The degrve of compensation wan calculated at 10'. it w" ~.6uno . on, t4a aUctrical conductivity parallel to axis C6 was no more 06 2-3 ti*Oi4s titai"that pexpendicular to this axLe. Photoconductive aniso- tr; was f *A to This contradicts the work of' Limpicki at al. ~A- Ll-!t~ij ti P R. rrafiklj~ ~4.- A,-~ MV.9 107, 12389 1957), In conclusion we thank hys a --m-StLy -ra f(+ deault the sults, L. A4 Sy!ayov for furnishing the zinc sulfide tals swfjx-]~,_ fbr assistance in preparation of the specimens* Orig. art, 1 figuiWb SW~ COMI. 201/i VATEt MAO/ ORIG )Mr 1 0011/ OTH Rtr: on, -c6ra 2/2 ~  ACC NR,APG()13068 S(XJX9 CCDE: UIV0046/66/030/004/0626/66~f7 /? I AIPMOR: it A.M.; Bocbkov,Yu.1f.; Georgobi J~il",I.L; OWj; 'Phyalgal Institute in. P.H. Lebedev, -Academy of Scionceg)SSSR (Fiziche,skiy institut Akaderilt nauk SSSR) TITLV: Elea troluminescance of bulk ZnS crystals ITWport , Fourteenth Conference on Luminescence bold in-Rigai16-23 Optember 19657 - SCURM. AN $SSR. Izvestiya. Seriya lizichaskaya, v. 30, no. 4, 1966, 628-632 TCPIC TAGS: electroluminescence, zinc sulfide, 4C,ft"X_O11,QUC_4,~, ABS'AUCT: Ilia SQV W undertaken in view of the LrrowAnz interest in 11-V1 semi- conductors an representatives of the class of compounds with a broad forbidden band. ZAac _uA'fide belongs in this category and is the most thoroughly studied electro- luminophor. However, most previous investigations of this elect roluminophor did not satisfy the basic cmWitiow for electric measurements -:n semiconductors: absence of surface effects and adequate uniformity of the specimemi. For the present work the single crystals were grown from a melt in an Inert gas '0y the Stockbarger technique, the crystallization was realized at 18500 C to insure gr(r.Yth of hexagonal specimens. ~A characteristic of the single crystals was pronounced Jeavage along the (1150) planef; Ithe single crystals were up to 30 mm in diameter and 101) mm long. Chemical analysis  L 39773-66 ACC NR- AkHio& 4,, ahowod_lbat the crystals contained the following igurltleB: Cu about 10- 'v , Ni about 5 x 10 "%, Fe about 10-4%, Un about 5 x 10-6%, S04 undor 10-4%, and oxidos under 10-4%- Tho SPOGimun P14TOO were prepared as follows: thi) crystals wore first oriented with reference to the cleavage plane and then waters memiuring 3 x 3 Mm and 2 mm Lhick were cut by nouns of a corundum disk. The wafers were etched In acid and provided with obmic ccintacto to eliminate surface effects. In tha experiments measuros wore taken to miAWme beating; these consisted in providing good heat conduction find using short exoititg pulsom (1.7 microsec) and a very low duty factor. The electroluminesc- once peaks at about 460 m1i; the brightness is a linear function of the applied voltage.: Further data are given on the ultraviolet olectrolumineveonce spectrum of purer crystals. The experimental results are discussed in general to"lis; the omission Lq attributed to interband recombination. In conclusion, iie desire to thank M.V.Fok for discussion of tbs results and valuable suggestions In the course of the work, V.K.Kostirk for assiatance in preparing the crystals, arul _A.-H.Savin and G.G.Stolpovskiy for help in adjusting the electronic equipment. Orig. itrt. has: 4 figures. SUB CCDR: 20/ SUEM DATE: 00/ ORIG REP, 003/ OM REF: 004  `4 3t :J CC M AP 2 di SOURM CODE; UU0051/661020/001/0183/0104 !COAUTHOR: B Gershun, A. S.; Sysoyev, Lt. A., IftPY-k- hilaya,"r. QRG: none. 1,1 Ul' 3~c i~olmtuescence of zinc sulfidi ITLE U d t ISbURCE: Optika i S~trogkopiya, v. 20, no. 1, 1966, 183-184 !~PMTAGS: ecti4u~in scenoe, zinc sulfide, single crystal, UV radiation 'AbSTRACT-' OP ~avtib et~~electroluminescence was observed in pure single crystals of , Le't' zinc:sulflai OOwn 0 a melt under inert gas pressure. Specimens 150 p thick were V ed'!Vio tage w ith a amplitude of 4.5 kit, a duration of 1.7 psec and s~libjected .( T f ;a! duty f a ~f I. The volia was applied thrviugh indium electrodes. The 9e 4ainescen, Of tb' SO'cirnens is siable at a constant vAtage and increases approxi- A voltage increase From ?.7 to 4.5 kv increases~ nate 1y, expo lkiil: voltage. t a lumines -1 I e"406 in ~e6olty approximately one order of magnitude. It is assumed tt this~ I ~Wece 06~ is due to recombination of electron-hole pairs created by UDC: 535 god ~1/2:~ T .316-3 ': "i 'i -A'li   AP7001,146 Georgabiani, A. N.; Steblin, V. none SOURCE CODE: Ult/0051/67/022/0,DI/0167/0168 1. TITLEi Electrolumiaescent p-n junction made of zinc sulfide 9OURCE: Optika L spektroskopiya, v. 22, no. 1, 1967, 167-168 TOPIC TAGS., semiconductor material, semiconductor device, pn junction , ZIN4 4&rME 7he fabrication of zinc sulfide p-n junctions by thermal. diffusion of Cu at 650C in single-crystal ZnS-C1 is reported. The elect roluminescence of there V-n junctions can be maintained when voltages are applied in direct and reverse dirertions. The dependence of luminescence brightness on voltage is shown in Fig. 1 in samiloprithmic scale. If the p-n junction is connected directly'. the luiminescince io&`ars at 1.2 volts. In thlo case intensity of luminescence is proportional to the current passing thou-:0 the investigated specimen. This deuenatrates the injection character of auch luminescence. If the junction is connected in reverse direction, lumirescence first appears at 18 volts probably because of. the breakdow of the p-n junction. Orig. art. has figure. JGSI Card. _ 1/2 LIM_  ACC AP7004148 Fig. 1. Dependence of luminescence :i~teinsil.,y on voltage In the zinc-oulf ids p-a junction I - Mract. dirqctionj,.~.- ravens directiono. .Card 2/A._. SU4. COr.LI Mn D~~: j0jun6AL Mwlbl- 003/ . ATD PRSsq: 5115-  GEORGOBLUU, A.N.J' GOLUBEVA, N.P.; LEBELN, P.N. Excitation of electroluminescenoe in alkal:L halide compounds. Chskhosl fio zhurnal 13 no.2-.91-93 '63. 1. physical Institute* Academy of Sciences of the U.S.S.R., Hoscowp U.S.S.R.  GEORGOBUSI, A.lf.j LIVOVA, YO.Yu.; FOR, N.V. Energy absorption in electrolumineseencee Opt. i spektr. 13 no.4:564-568 0 162. (mmA 16-.3) (Lumineacence)  FC) R 5 C%, T 1117 D%f~'t, Us'p of tne clis CC b~'- .-Jj sry- J(~n CI,.i jr, drItOl',].'.Tlirg the optimant parfimelmS ir, a certair cortrol problem.. Soob. AN Grw. SSi, 35 no.1:21-:11 Jl 164'. NIRA 17: 10) 1. Vyc-.ls!Ate-Pnyy tcentr AF ;'r(!JsLavleno chle- Al*  GEORC,91 Ljjg:L-DA.L Croof of th,) ex'~~ttrwu 6113 d~BtribAtl-.)-j ,,-I p- 1~,Z-Qblem 7r, Gruz. SSR 3! a Vych hil it, e1 In y.; (m- 1: to be - '1963a  GMPGODIAN), D,A. 4 _ Jrj the thf,~)m f7.-' -,! - BusJa for a limiting -lr,~4C'?. Tmdy Vycb. toienLr. AN Gria. '03B 5: ~'~--45 165. (MIRA 18:9)  s/i2c,/62/000/001/032/o6i 13192/ E381-1 AUT11011: Georgobiani, T.P. TITLE: Temperature stabilizer for the cfi'xision camera of the ion source of mass spectrometers PE-RIODICAL: Pribory i. telchnika eksperimenta. no. 1, 196-1, 133 - 1,36 TS7.XT: Temperature stabilization of the effusion camera duri,ng measurement of the intensity of ion cu:,-rerts in a mass spectrometer is of considerable importance SitlCe it determines the accuracy of the measurement. A stabilizor for the camera was designed and this is described in some detail. In this system the temperature of the effusion cam.~ra is measured b a ly I pintinum-PIntinum-rhodium thermocouple by the potentiometer method. The voltage which balances the emf cf tile thermocouple is taken from the potentiometer nn711-1 Tile automatic recording potentiometer ~~yj -09 (EPP-09), linving a sensitivity of 10 pV/division is used as tile null indicator, tile sensitivity of the potentiometer permits the recordinc of tile temperature changes of the camera of less than + 0.5 0C. Temperature Card 1/9  S/l2o/62/c-oo/ool/o32/o6l Temperature stabilizer E192/E362 stabilization is achieved in the following manr.er. The difference z2sU between the voltage of the potentiometer PPTN-1 and the emf of the thermocouple (a deviz~tion signal), which is produced by the temperature change in tile camera, is converted into ail AC signal by means of a vibrc.tor; tile signal is applied to an amplifier by means of an input transformer After amplification the deviation. signal is applied to a ma'netic 9 amplifier which controls the heater circuit of the camera; the amplifier increases or reduces the heater current, depending on the polarity of the deviation and changes the temperature of the camera in siich a vray that the deviation is compensated. Th e deviation-signal amplifier is illustrated in Fig. 2. It is seen that the amplifior consists of two AC stages bu,sed oil a double triode, a parallel detector (tile diode section of the diode- pentode) and a DC amplifier based on the pentoe.e and the output triode which feeds into the magnetic amplifier. The gain of the' system without the magnetic amplifier is 2 x 1C,5 . The Card 2A  S/12062/000/001/032/oft Temperature stabilizer .... E192/Z38,.~ sLabilizer covers the temperature range from 11001 - 1 200 and was used in the investigations of P.A. Al~ishin, L.N. Gorokhov and L.N. Sidorov (Ref. 1i - DoIrl. AN, SSSR, 1~)60, 113) and P.A. Akisliin, Yu.S. Khodeyev (Ref- 5 - Zlh- fiz. ig6i, 55, 1169). The stabilizer was also employed with double-effusion camera. There are 4 figures. ASSOCIATION: Khimicheskiy fakul'tet NGU (Chemistry Division of INGU) SUBMITTED: June 26, 1961 0C. 135, Rhimii V41 Card 3/4  ' V AL.; IA 77 II Oebi* TW I's 44 Wntom uO :9 MD/64,10/00#q 10/0 1 M~~ moo *,Wr*At,A_Wm:~W9momfto stlzatim,~, perimenta no. 19651 U306S ior with a, phae-sansiftys.dateotor in desoribed of imio ourrut in a moo speatro- th an VS-3 two-ban mass spectormater in 6iz~vos of low-,volatility subetanoss 'by the method of quad-ubnoevergatic slectram; the time saying in ..I tR bo up- to 930, The sem-pobit mistabill., ty rsdued 1.5XIV&S aw. -"In oonolusion, tIm author,*~wixbes kv'fte bis help In aligning the mqs1ifter mid the r its constant interest in the vcrk,* Orig. xrt'o hast   or !in r :T:' n v ro r "7 t~ d z'n a.; s, !!;.M~ nm zr-.,-iv Maf3,,' n b, C.5  RiUSUKU, Allfred (fteesoup A.jp prof.) DUEORMANYAM, Hirchya (Georminianut Kab kwAamdamuk - S4%Mcance of pneumonediast:Lnography in pr-'umxy tuberculosis in children. Vast., rent, i red. 35 no. 6:14,16 N-D 160. (KM 14:2) 1, Is 1-7 diatrichesk klinikip Bukharest. 116TUBERCU KOT U)SIS (PIIEUMOMEDIASTINUM)  RUSLSOU I A., prof.; HMR~SGU, R. , dr.; GE01-d-IMANUf 11, , dr.; POPIZGU, V. , dr. Relations between the Wtssler-Fanconi syndrome and chronic poly- arthritin in child m (Still's diseases, chrcmIc evolutive poly- arthritits). Mod. intern. 13 no.12:1609-1615 D 161. 1. Luoram sfectuata in Clinica I do pediatrie "Mailia Irza", Duoureeti. (ARTIMITIS, IMU14ATOID in inf. & childh.) (JUMMIC Mhdi)  GEOR G 0 Bj: fiYt, N.I. CHUAIM. U.N.; pppqIm4A-NOl- Spectroholioseopic observations made On Mount Unobill In 1941-1944. NULAbast.astrofis.obser. to.13:169-260 153. (MLU 7:10) (S")  -ID~~erwttl no cr Ci 35'ull A'~ ~e, A'~ heoults oystemutic Of 11' ~-I, I t. f! =d prominences in 1:1 si-)ha -:ire -oilblIol.ed. These obso-votirr. Ticrc c-urriel ut by :;I-.. Ch'aidze, oc, r bland, SO 71-31-126) 11 Jar f:5  GWRWfANI, T. it. Ggorg2biall- Tt. A. and Prokopenkoj A. I. "The protection fo citrus fruit", Byulletenl Vausoyuz. nauch. -issleds in-ta dhaya i subtrop. kulltur, 1948, No. 3p P. 53-63, -Bibliog; p. 62-63 SO: U-330429 11 March 53, (Letopialnykh Statey, No, 10~ 1949).  USSR/Humn and Animal nlyeiology (IjQrml and Pntholoj~Lcal). T-6 Intestine, Abe Joir ; Ref Zhur - Biolij No 16, 1958, 74887 Author : Dzidziuvxi, T*D,) GoorGobianij T,D. Inst : - mawww"M-14"WW"', Title : Sona Data on the Motor Activity of the Small Intestine. Orie Pub : Fiziol, zh. SW, 1957, 43, No 2, 164-1,58 Abstract : Tu doGs the loop of the small intestine (ISI) was taken ,)ut into a skin flap for a lenLth of 10-15 cri and n fis- tula tube was placed into it. Movenent of the stomach (s) and Lm were reGistereC. by balloons, as well as by oncoGraph., in which the skin flap with LSI were placed. Hunger period mvewntq in the LSI were continued 15-30 minutes) periods of dormncy - 1-2 hours. Between tho movements of the S and LSI full parallism was noted. Periods of mvements of ISI coincided with periods of secretion of intestinal juices Weak inflation of the Card 1/2  UsM/Humn and 'udinl r-hysioloey (Non-nl anO. Patholoil-.cal). T-6 Intestine. Abs Jour flef Zhur - Biol... No 16, 1953, 14887 balloon caused a conGtruction of the nucculature only of that section of LSI where it was foiaid independent of the periodic activityo With the incrence of the inflation, nevenents were spread to the naidiborini; sections, and with very strong increases of pressure the rumements were stop- pecd. DiL-ing stimLlation of the Liechazu).-receptors of 3) ccutractions set in at the beCinning in the S and in a -%iii.Le in LISI. By means of Uie "balloon" method periodic mtor activity of the intestine cannot be studicO. since the balloon itself) beinG P. stimulator, changes it. -- V.A. Shaternikov. Card 2/2 - 75 -  -,7,- 1 ;'v r, v TYV 7 5 -  T,*~~, D:  GZOaWMM,.D.,-.dr.; TEODORESCU, A., dr.; DOBMCU, D. Considerations on a ease of t7pical nephrocalcinusiB. Med. intern. 14 no.12:1515-151? D 162. 1. Lucrare efeetuata in Policlinica de adulti, Orai0va. (NEPHROCALCINOSIS)  RVWIA and MICLIA, He# Vat-u1nary Physician VARTIC, or. H. (Faculty of Veterinary Medicine)" (Facultatea do medlctiui voterinara,) Cluj. whsatment of Anthrax Abscesses" Bucharest, RevilSI do Zootahnis si Nedicigg Vaterinaral Vol 16, No, 5s Hey 661 pp 70-73., Abstracts (Enslioh s-ary toodifiedIt Direct injection of antibiotics (strept6ycin and penicillin In saline) was found more affective when injected directily Into the abscess cavity than the standard parenteral treatment with the some drugs in several cases to large domestic animals, 5 Rumanian refer- Once$* 1/1  (11 -. ~ .1) "Uilal Y.,; HT'DUNKUNTY, A. Lumber - Stand&rds Method of planning lumtering operations. Les. prom. 12 no. 1), 195"% 1952 9. Xonthl List of Russian Accessions, Library of Congress, . December -Mm Uncl.  v A. T y a~~ "EeUiod3 of prtx:ut:Li,.,rI plarning," p. Cr"I. (!,: NA, iol. -,, rc,. -, ",ar, 1~)" Praha, %,zechoslovakia.) . ~ U. J, SL: ',,ontn*- Lis~ ui i~urupaaii Ac~;e3,icns, L.j., Vol. 2 ;-~u. 't, JuIv 10,,,3j Uncl.  I I a as a it a i ~v I ~vv 9 . ) S I.IX W 6 R ;r candt m-li 111 r Otitle lifell I I ) . - __1 - -.11 __ ." alod, fish, 111 016 It Ovilf, . - . . . . -- L, WS R.) I I if tiralrd .1111 7, 1. \4\(k. I 'tit I) ad 12h I kv. It tit wit it 1, Mit At fislitiald It Ill" Addis. 4 .41 c 41"V Art W, Ifirl, affir-1 I e to a isiralif "All thfilrill) it. it" p r 'v lit fault -r J~l lu%., gm . l USI V Z d I -which. Whall lituird lavi l 1 .1 'Xilk I.htr. I rl "'l, stil lk PWW I Is 04 kf (V 1. 112 1.). It i and. all1kir m1wadirsiscr tit I r IN I c that, Ill 12 Jr. toll% IlMll (in 0 K)rlllalll 1144.) were bratrd 1,11 0 water tirm 1. in 1604(13.11 1411% Uvr LN lit, aft-, ul-Nirlic, 44 the initial ' N 1 1.1 It Olk-k Wrap, Imar I a grain " 91 41=11 I Alid is b-Illall, tift~ 611-11 'I trass-ton; on c%.4ins, if. I irle, -tilsm 1 . ask- i I 1 h 11 fil ( n dryms kit 1 " the in-mvillinS Sa vita narrilak % l -misu Ica 1 112 l a lth Ii h i d b b ' I . IN ". we i irate e%aIK y. t e . t r a Ir r cams a 0 u t censta lor stalt a ug Xam conled HISA), astaii (*I" to -30% I tri matimil with I"I nil 1 aw (100 k i th ) * 5 In 0) "' IN t at t Itti.tvil %till %tirling with 4 cv 1,w` to mus . Iliad treated va!ih 4 c~ N 411 . 8011 *- s t r cirp e tmp. 1. ttif . *, lim 0", then 4111trit It* 11.1, In. at 3,; the vinfiLt. paired . 401 yirldrA the Ns aftr-f thm-phriline, whith.t." flatims am c1!. irtisrk"I Ire friolidriii Nt% (11). 'M 11 h IIAIIIIIJItl with '91' ,;~ A01111. fall- ICA% ths.11111XII101, 'It 2 N.J. W*4 .1 1111011 0 11111e IrP %Ali-# told &J1,41fitd, I oo .*, \A1111 Sir,) VI 1 11 1 sr III woo ittstod in fix) cv, water inob 44.2 it. lilrNlIM. 00 al , I,q issillivismind by drulsari,ar addri. at 24 X. IN&MI m 123 m. Flvo ' . hmts1-9 114 .till hski, *nh :1.% g %IrNi roe duft 4111 lob. The *Ali. was warated la W, whrer N jO . , f Ir,~, Call'isle, Ill, (III (jv4InC VNJ(Jrd I lit 7 that Issivin, arld, isfict cwLIW clevatmin of the, fring). 040 W , . . t in ~hil,c Assort hralird -I *Xl 'r00 -1kn unit. wom evalid. to to no thit p In woo 'l ru s" - t A t i h M d 1 4 IN . ri-diii, mal"I w-sih 4 c Arid 'd)' ArOH, ase rea e w 4 M t : g. O, 1. yie J ld M .3% tech. 00 d cWto. alms"t 194% !40. WtIl-dried I i2l.6 9.) was, 6-414- - hAksti I"t 1 11 ill nived with t1thd Imb. monscittarthykwbarnide, (29 g.) ktm ' . 1 t 11001 m. v '11, At's g and troted imith 2A 1. ApjO with stinnug; after 2 hill. the ' ' k-11 1. All 11 IIN ~'hr,- until 11 Isist,11,11 stills 6.1 1101.11, and rVjI.I Is, drivil.- $is 114.1 ruilil., Wallibell U, III I ll* 2 him.. trimated %ith flom 11,g). , - I, S Sind fillelvd. Tirldoil 17 1, 1-i-posimot(yj wo ,till. , ;- "I's", is, 104 U.%* (inuile). 14 IA I PF.1,11 A I I Ill's till '11111 1 N I; \41 111, 11, AIM .., 4 1 l IsI l I. "Airl Will (", 0., 111 . ".4c, . ill, fim" it, mq,4 "ti 9 " Still h(joull"I on %thrills. only lit nitillislify 0111- Slv,4), stilling I lit, . awl lilkir-1. Vit-IlItil III 1, V spin to Sim 4 I?mst. X.I. ill a -4n. .4 thl. Ill I'll I'mmilic, 'rv,of om,( 411'r ~Ilammvl Irram f it% vv. walti mm~ io4litil with AcOll Ili riel.1 (hm. to 1_mltkii 4 avid tIVI IV 114 1; g I 1111111 ~1 4itm, :. lit"t. Nat III livialrd Idl ~4,1. Ist-cluml wvIe 1..4 %%b 14- 1 A, lithsh with Asillio, lit Yield 14 1. -- - d 0.1 l 111sivi" ... . - -' - _ - " ti: o I l - - ' nr T 1 11 -1 1 s r 11 1 U 0 0 10 0 a 40 0 a a a IN g )* to 9 As 0 3 I T Us 14 iscr4oov AM a I 9 IF 0 0goes o 0 a 111 0 0 o o :1170,  i ACC NR AR6035063 SOURCE, CODLI: TJR/0282/66/01)0/008/0002/00(j:i AUTHOR: G!p.ner, 1. L. TITI.I-,:' Constructi.on materials for chemical equipment operating at high temperatures and pressures SOURCE: Ref. zh. Khimicheskoye i kholodillnoye mashirustroyeniye, Abs. 8.47.13 REF SOURCE: KhISA. 2-y Mezhdunar. kongr. khim inzh. tekhn. khim. oborud. i avtomat. , 7.1arianske I-azne, 1965 g. S. 1. , 1965, Ye 3. 1 TOPIC TAGS: chemical equipment, heat resistance, con:itruction material ABSTRACT: Materials used in the chemical industry can be divided in two groups: 1) iiiekel-alxirninui-n-t-Atanium-base alloys with a chromium addition for increased licat rcsistance, and alloys with additions of zirconium, tungsten, and tantalum fQr the manufacture of special equipment, and 2) materials with aluminosilicate fibers, reinforced plastics, and metals. Of interest are materia-Is with a silicate fiber base and an alumWum binder. [Translation of abstracLI UNTI SUB CODE: 11/ Card 1 UDC: 66.02.002.3  a Z's , -it., gLical 1!~bibly, saul n*idmwv to higis tm~ A=W  GEPUR-WOMMU, Haria (Warszawa, Chocimaka 5, Instjtut Hematologil) nwoff" Catalave activity of erythrocyteo in blood dileases. Polokis arch. mad. wown. 27 no.9:IIB3-1196 1957. 1. Z Klinioznogo Oddsialu Chorob Wewnetrznych i Pracowni Biochemii Klinictnej 119rownik: doo. dr mod. A. Kowalski. lnstytutu Rematologil 11~,rektor: doe. dr. mod. A. Trojanowski. (CATAIAU, in blood, erthrooytes, In various blood dis. (Pol)) (BLOOD DISUSIS, erythrocyte catalase activity In (Pol))  GEPRER-WOURUSIU, Maria Activity of glutamic-oxaloacetic transaminaso of the erythrocytes an,-I plasma of preserved blood. Pol. arch. med. irewn. 32 no..'AI.0:1213-1218 162. 1. Z Oddzialu Chorob Wownotrznych Insty-tutu Ifematologii Kierournik: dr mod. S. Pawelski Dyrektor: doe. dr med. A. Trojanowski, (ASPARTATE AMINOTRANSFERASE) (ERYTHROCYTES) (BLOOD PRIZERVATION)  GMER-WOZIUMOSIA, Maria; TRACZYK, Zdzislawa ACtIVity of glutamic-exnlic-acetic trRn9pminase in the erythrocytea nnd serum In blood diseases. Increase of the ACtIVIty Of glUtAMiC- exelic-acatic transaminase in the erythrocytes 1n hemolytic syndromes. Polski tygod. Iek. 14 no.32:1473-1479 10 Aug .59. 1. (Z Klinicinego OddziAlu Choro,) Wlwnetrzn,,rch I Pracowni 3tonhenit Klintcinej: kierownik - doe. dr mad, R. Kowalski. Instytutu Hematologii, dyrektor - doe. dr mad. A. Trojanowaki) (3WM DISBARS, metr,-N.) ('1VIISAMINAMIS, blood)  'GEPNER-WOZ14INdSKA9 Maria; LEWICKA, Teresa; AFEK-KAMDISKA, Maria A'plasia of the erythroblastic system co-existing with a benign tunor of the thymus. Pol, arch. mod. wewnet. 34 no.31367-372 164 1. Z Oidzialu Chorob Vetrnetmych Instytutu B.-matologii w Arnavie (kierownik: doc.drmed. S.Pawelski) crew. ze Sapitala Zakamego Nr.1 w Varssawie (Dyrektox-t dr.med. A* Krvoztof).  PAria; KACVH(~SKA, Elzhivta; Zofia; Primary auto-i=une hemolytic anemJa3. Prolonged clinical, henato- logical and serological observation. Therapeutic results. Pol. arch. infid. w(jwnet. 34 rio.8:1.065-10'12 '(4. 1. 1' Offilzialu Chorob Wewnetrznych Instytutu Heruktologii (Kierownik: doe, dr. mod. .9. Pawelski); z (Iddzialu Pematologiczn(-go (Kii~rownik: prof. dr. mad. V. lAwkowlez) i z 7.akladu Srologli Marownik: due. dr. med. H. Seyfriedowa).  GEM' EIR-40ZNMISKA) Karia ---l-1-1-11.1', . ......... ;"..-.. . V51,wid.ri B 6 metaboliom and it.; duflel(iu 1r, 71,10- Pol.. tyg. lek. 20 no.10067-370 8 Mr 165 1. Z MIzIalu Morob We-~nletrm~cli InstyLu'Lu li,wattelogli Werow- n1lit dr. mad. S. Pi 0  I - 111-w sk. v v I to v 0 v v v w . . - - - - - 9 0 0 0 6 0 j"M # it - I I L ' to Al b l v 10 op It v if it 11 v a to I it A? ; jo * 10 j 0 * a 1) As I a $I a u m cto ; A A 1: 1"- " k - ., ; A-1 .1. A a A-I v...x i A. A 14A -4 , t k- 4 1 a A .-S-A-L.,4 ... -0 1 -** ! j~ ! L~ zl ~ .11 . ; ! - - - - - - istial a of studs, loonspoof loan) sho 844 low 0t" Jw2'w ~ - AtIdo V wi li b 1 C rim. rve-Ar 0. t C v CoLvan's and VemkAs's toerihmf 1 CA. IS. Ckvlf,of 1.m~ i loilik-omr. god utW fMltWftll ill COO tat 141111 41111041 lorootlucts total in the Inuvitwolietv ;mcmiuris til tat dwoo ' ' 0 A demrviplim of Cooltrian . tn~tb~,d t, s and Yetwtan ot lu ffactilift "M alw diftel. by tht- -+ilkev nwtb,%l ' a* also! Hmx4.Vvovkn sowbad f PwIlAdn look, C A Is. 2" 13 and oxompsti-Mv in tiolonve 'A"T otwo,If. I skmf.-k QQ 0 ;;o 0 of 00 so c0 0 890 too 0 use ago 110 0 .1- w t V'1-4 I C 1.11-11-11.-V I v If $A A I is PW 0 to a 0 6 a PC 41111 H lemma 4;l4k 0 0 0 0 o 0 o 0 6 a 0 0 0 6 0 0 0 : 0 : 0 :10 40 0 0 0 0 0 0 0 0 0 0 0 0 000,00000 00 0 0 10 10 0 00 G. 0 0 6 0 0 0 Oho  BoRisil !!"WO V. ~,; . ; DO:` I ~Kc , ~!. .,'~ . ; G1. I ~; ,, , '' . '~ . ; ; z, 7 ., . ; [~,;! , 1, B. I i I- - 1, . , , 1 1 L~ floasorw for the inccreas-d ( ~ !3,, r i , F r)~' Eiteel. !I:ot.allurg 10 no.8,:25-27 -Ag '04. . . ~M-'Tlt 17:11) 1. '"'awd l7apornkistall".  Coi i.,. i 1.0 1, t(j 0 0 / 06 40 0 3 5 / 0 0 3 6 (C'11."h.date of tck-linic'Al :iciont-c;-) A. (C.,ndidate 1';'n I . V. yerl;lo I ()V, IV. V. A.; Verloasov, V. I. Kur I I onkop V. Kh. ; Kirva I N. S. ; Pastern a k, N. M. 3:%C: noro T: 11 1. Z: Improving the plasticity of KMMIOT tube steel by vacuun-arc melting SOURCE: 'Me t al lurgichookaya i gornorudn~iya promyshlennost no. 4, 1966, 35-36 70N.C TACS: auntenitic steel )J)laSLiCity, -vacuum arc,) I F A. rl 4) %_- , -1"4 8 li?IVIO 7 OrE ~C/- A'3S i'.'%AC'1 :The plasticity'.'of conventionally are i-,lelted. i.;id vacuum are melted KhIISNIOT steel was teS"Led'by rolling conical specirens in a piercing mill and by torsion tests, both at 1000-1300C. It was found that in -.)iercing, the critical reduction 6epends primarily upon the a-phase contert. Metal with a high a-phase ConLent cannot be ea:;Uy pierced at a temperature cf 120GC or higher regardless of the i-.xiting mothod. The content of impurities and pase6 is of secondary importance. In torsion tests, plasticity was found to depend mz.inly up.:)n the metal purity. In- asmuch as vacuum arc melting yields steel of a higher purity, its plasticity is also higher than that of conventionally melted SLC(!l. The increase of a-phase con- Co,d 1/2 UDC 669,15-1S4.621.774.35  1, ol:)94?-6? ACC NR, ik?6031515 tent up to a certain limit does not substantially affect Cie plasticity of KhlBN10T steel, but La Increase over this linit lowers the ateel plasticity. Orig. art. has: 2 figures. ~(i -JB 00 DE : 1/ 13 SUBM DATE: none/ ORIG RFF: 002/  SZYIUlp Franciezek, dr inme.; GEPPART, Andrzej) ins. Researob results on the wind load of the overhead line conductors in Poland. Energetyka Pol 16 no,12:Suppi.: , Biul Inat onerg 4 no,-11/12:/~"S D 162. 1. Zaldvid Sieci Elektrymychp Katowice,  F MOZDOV, CO., professor, daktor takhnichaskilch nauk; PRIVIZINTSXV, V.A,, professor, doktor tokhnichaskikh nauk; XOKAROT, N.S., dotsont, kandi- dat tekhnicheakikh nauk; NI=N, N.V., dotment, kandidat tekhnichaskikh U&Zkl SMMOUT, IsIo, dotsent, kandidat tekhninhaskikh nauk; KRIMLEV- MIT, P,A,o kandidat tokhalcheskikh nadc; OMOP, A.P.p inshenerl AT&M- SAMV, N.V.. professor, doktor tekhni oho -skUK-naW-,- TABSYMV, B.H00 professor, doktor takhnichaskikh nauk; XYGMNSCR, L.S., profess,or, doktor tWinioheekikh nauk; STAFANOV. V.S., dotsent, kandidat takh- niobaskikh nAuk; KAGIDSON# A.O., inichener. OF--iozoe ot alsotriosl materials." H.M.Mikhailov. Reviewed by N.G. Drosdov, and othare. Xektrichmstvo n0-3:93-94 Mr 154. (MW 7:4) 1. Moskovskiy energeticheskiy institut im. Kolotova. 2. Yeasoyusm zaochnyy ettergetichaskiy institut. (Mectric Insulators and insulation) ~Rlectric conductors)  G,E PF:~S _\ ~), .P) AUTHOR Ing. A GEPPE Eng. A.0. MAGIDSON 105.6-26/26 f i+ =r TITLE aya. "RadiotEchnical. Working Materials". G.I. aeN G 2. revised edition, 328 pq~es, price Rb. 7,65, publiBhed by Gosenergoizdat 1956. Licensed by the Department for Instructional Institutes of' the Ministry for the Radio Industry as a text book for technf-cal schools MRTP, (G.1. Rabobinskaya. Radiotekhnicheskiye materialy. Itoroye izdaniye, perarabotannoye. 328 ctr., to. 7 rub. 65 kop. Gosenergoisdat, 1956. Dopshcheno Upravlaniyom uchobnymi zavedeniyami Ministerst-va radiotekhnichesikoy promyshlennosti v kachestve uchebr.ika dlya tekhnikumov MRTP. - Russian) PERIODICA1 Elektrichestvo 1957, Nr 6, PP 95-S,6 (U.S.S.R.) ABSTRACT The above is a book review. The book consists of the follow- ing parts: 1 Working materials for olectric Insulation. 2Semiconductors. 1 3Conductors. 4Magnetic working mater'Lals. Boijides, 8 laboratory wofks are described. CARD 1/2  105-6-26/26 G.I. Rabohinskaya. "Radiolechnical. Working Materials", 2, revised edition, 326 pages, priae Rb. 7.65, published by Gosenergoizdat 1956. Li,.,ensed bir the Department for Instructional Institutes of the Ministry for the Radio Industry as a text book for technioal schools MRTP. The book is widely criticized and. all deficiencies are described in detail. They mainly ci>noern the arrangement of the matter dealt with, style E,n-I expression, as well as cases of technical inaccuracy a~ad errors. ASSOCIATION: Moscow Institute for Energy VolatDvll and ALLUVION Institute of Energeties for instruction by CDrrespcndence, PRESENTED BY: - SUBMITTED: - ATAILABLE., Library of Congress. CARD 2/2  105�&345/31 1UTHORs Geppe, A. P. , Engineer TITLE# On the Surface Resistance of Dielectric Substances (0 pover- khnoatnom eoprotiylenii dielektrikoi) PERIODICALi Blektriohnstvo, 1958, Nr 3, pp, 60 - 65 (USSR) A . ABSTRAM Although the ape oific surface resastance 9 beside E 1 9vt tS cPand 3oond. - is one of the ffM fundamintal character- iatios of electric properties of dielectrio substances, it has hitherto been insufficiently investigated, and the con- ception of "surface-eleotrocondue-tii-ity'I has not been defined exactly. Also the p sical meaning af the surface electrocon- ductivity TS - 1 9S is not clear. The fundamental equation RS - 9.9b/t is applied without suffioient physical proof. The surface current (leakage current on the surface) represents an important starting point for a theoretical investigation and for the measurement of the valuo of surface -electric con- Card 1/3 ductivity. In praotioe the current passing on the one aide  On the Suirface Resistance of Dielectric Substances 105 - 58-3-45/31 of the insulation surface between the electrodes, must be known, and this current is to be taken for the surface our- rent without limiting its domain of passage by a layer of any thickness. It is of importance that such a formulation provides for the necessity to consider the electrode dimen- sions, (width and length) in determining the surface current. Based on this formulation the conception "surface electric conductivity", as electric conductivity of dielectric sub- stances between the electrodes fitted to one and the same side of the surfaceI can be defined. Then two very different cases are investigated. 1) The electroconduo'tivity of the surface- and interior layers of tha uaterial is equal. 2) On the surface of the dielectric oubstande a layer with an increased conductivity, compared with the interior domain, is present. - The equation (2) is derived, which considers the effect of the electrode dimensions and of the distance between the electrodes on the value of the surface resistance of dielectric substances, in the oase of the absence of a layer with increased conductivity on the surface of the di- electric substance. The current between the electrodes (which art fitted to one surface side) here passes through the en- Card 2/3 tire mass of the material and not only in the thin surface.  On the Surface Resistance of Dielectric Substances layer. In the investigation of the second case the physical meaning of the equation -(S 1~.,. tecomes evident. In the fcrm of the equation (7) *rS nE;urface'K'q it obtains its final shape. n denotes Sr and indicates the number surface of ions in the surface range in Em area of I cm 2 (surface-ion- -density) K denotes the ion mobil.itj. q denotes the charge of the ion. Summarizing, it is; stated that the measurement of the surface resistance ie to be carried out by means of spherical electrodes of exact and certain dimensions. The method of determining Rs( 3 ) recoma-ended in GOST 6433-52 is incorrect. There are 5 figuren ard 7 references, 6 of w4ioh are Soviet, ASSOCIATIONt Moskovskiy energeticheskiy institut (Moscow Institute for Power Enginstring) VAITTEDs Jul.7 4s 1957 Card 3/3  GEPPE, tk.Po, inzb., ansistont Affect of dot-size defectR on the innulatio-i-diqruptive voltage levol for enamel wire. Trudy Ml no.9:2150-2.55 '58. (MIR& 12:10) (Elootric Insulators arA Insulation)  GEPPE, A. P. Cand Tech Sci -- (dias) "Study of s.)ecial heat-rosistant 17--' name conructors and soveral methods of olectrioal to3ting.ll Lenin- e gradt 11?001 Y? pp, (Min iiigher and SeconOar:,r Speoirtlized Education, RSIPSR4.1,eningrad Electriall Enginoering ;m ". 1. UIYTIIIOV (l,enin), 200 copies, 31-6o, 141)  GEPPE, A.P.; TERNOVSKAYA, G.V.; HOZOVSKAYA, G.D.; NIKOLOTVA, Ye.F. Changes occurring in some electric properties of rubber during its swelling In the solvents. Kauch. I rez. 22 no.9:17-19 S 163. (MIRA 16:11) 1. Nauchno-issledovatellskiy institut rezinovoy prorayshlennosti.  GEPPFJiT , b. P. Thtratissue oxygen therapy in paradentosiq. Stomatologiia 40 uo.40~-95 n-Ag 161. (KRA 14'.11) (GIR49 Tq?Aql;S) (OXYGEN-INERAPEUTIC USE)  GEPPERT,, MakopmWan "F"roises for the autogene trainingO -by J.H.Schultz. Reviewed by WaymMan Goppert. Frzegl psychol no.,5:185-186 162.  Nov Achisv*Wzlts in the midtown housing construction, Architaktura Pol no-102449-455 161.  ~d GUSHMEIM41 114 A* T I FJ-67 (Synthenis and transformations of viMl ethere ViML-ition of motiethancilimine) 3intes i prevrashchenii!j Soobshchenle It Vinilirovania vionDetanolamina, IZVESTUA ALkD&ZLI 'L;Atil; 3SSR. OTLM..:,!,,'IE Fi..L-IICHEAIJI~i of -.than.,)l~uunes. I. vimilorikii efixov e:;tan-.la.7d-n. -v lll'.,~;A (3): 328-333, 1951  Oil 4 90 sib-, 004 41 ,o h . A a a AL-9-9-m-W-9 v v v - w" applied Ice the study of strevots O~t kuid) to tift. - l d l i Z d d f 2 uor at a c. . o mt v4s. ilitip., I o ate pru u p nter's nt em &W with th additi n m l s dm s ut. . e o 4ge pe q. g ti~n&UtbeprtoutalcompieWwiuftan. Thefartm, o W The 114 kind reach a Rini. value at About .5 a. 1. 0! 1)), glue. luzaplairshoul 1,61h. with vulfided kastut 4418. -00 mildmim agrul. miv-ws ul the lot kind and hatilms d.. ll I id i hi h d h 4 h imi, on t e voiuv 4 t e oi a . w t n t e no( dalora A I to Ij SA. Ruktalans Gain, to '59 0 AffiWAFMIC&L titf*Afiml.CL4"wc4ti" Jos %1111134t. U AT 0 0 0 a 0 0 0 6 0 111 0 0 1 00 ~;I see U4110 vas a T-1 --- V-111- -9 lit. 0 'ties to di 3 6 . 0044 0 0 liege 0 00 6 0 0 0 0  0 qp-lqr~ , - - I 19 ......... .. Dthf-0111,11tivu Of fikkiNtas of elitctnelyte: dtrwis , . 10"m 11W I s I A.I.11 I I it. A.."k ;M11111 I I hr I let, k Iri ; 1W.0, .1. t.1 J'j' % feel k.4111, 41"t ,ak,. ,III 11111-1011r, .4 IN. 111299 f"Recti(M Angir. 11111c 4 ine-detive, fatin of K d e an Kp intmitit.%, atcni, fat-tfj,,. omoure owffi.. vtj~. to ekturiffaly 4'em, Rmult% weft ifirried ley Witithirsilt 4141k.411 .I See An't V, 'm ("' 'thr nieffiml 00 loun.1 applk-eilae, 1.1 dt.p.11 11, ) IIII, k 4 ,,, em ! Li " d I & ') t 0, is 14~11~ it 111. ' me u N T C 00 00 400 ass tie 0 WOO -i7 I u 0 Al I q, I it it It pt 40 to It It 10 M I imp ( a * 4 0 0 O's 4 6 0 0 to of s ee 4 0 0 0 0 0 0 0~ $ 0 0 0 0 10 C/1 00 000  YZnn=, V., zaslu2henW master spDrta, rekordsman Sovetskogo Soyuza po aviatmioAqw vidam uporta- GJPMIZR L, sportswenka perYogo razryada, r0mrdsmon Sa~etokogo Soyusa po avfah-S',-6i; vidam Bports; DBDZHZM3, L, master sporta, rekordamen Sovetskogo SoVuza 11o aviatsionnym vidam sporta; MWIAW, M., master oporta, rekordsmen Sovetskogo Soyuza po aviatnionnym vidam sportaT SOUWITAVA, Is. master sports, rekordsmen Sovetakogo Soyuza po avittsionnym vidam gporta. let us open an account of Spartakiada reCDrds. Kryl.rod. 11 no.3.1: 2 11 16o6, (MIRA 13:10) (Airplane racine)  POZIICUYA, A.G. - GUSHTETH, Te.M. 0 Reductlou of pyridine and its homologs on the drepping-mercury electrode. Zimr. Obsilicbey Xhim. 22, 2o65-70 "52. (MMA 5:12) (CA 47 no,18;9)25 153) 1. Jastern Coal Chem. Inst., Sverdlovsk.  NOTROV, N.N.; AXOVA, Ya.K,,; GURPICH, B.S. Componition, of coal tar from the coals of tbe Kuznetsk Basin. Koko i Wz.no.8:36-40 '56. (MIRA 10:1) I.v on'Lochn". ugloRhimichnskiy Institut. (Xianetsk 4sin--Conr tar)  AUTHOR: Gepsh-tAnUA1.-,, TITLE: Production of Pare Products (Polucheniye chistykh krodu~ftov piridinovykh osnovaniy) PERIQDICAL:Koks i Khimiya, 1959, Nr 3, SDVA~,-5/9-3-12/23 from hight Flyridine Bases iz legkikh pp 49-53 (USSR) ABSTRA.M Duri ag the last few years VT1MlN developed methods suitable for a low tonnage producti)n of 0 and r picoline, 2,6- and 2,4-- lutidine and 2,4,6- collidine of reagent's purity from raw light -,?yridine bases. The construction of an appropriate plan:j on the N-zhniy TELga Works is being planned, A description of the mezn.od of separation of tbe above biises is given. The prin.ciple of the method is based on successive separation of 2,6.- lutidine, 0 and T picolines, by selective precipitation of respective complex compounds. The separation of 2,6-lutidine from 0 p:-coline fraction is done by the precipitation of a comp*.i.ex with urea (ref 1) which is filtered off., From the filtrate 0 picol;Lne is Clard 1/3 precipitated by the formation of a ~.omplvx with copper