MODELI, A. USSR/Electronics - Antennas Card 1/1 Author Model', A. M. Title Analysis of "wave cliannel" type antennas Periodical Radiotekhnika 9, 55-62, Jan-Feb 1954 Abstract Directional and traveling wave antennas are analyzed by ~;ubstitutir__- approximate expressions for the exact dependence of t~ie reciDrocal radiation resistance of two vibrators upon the distance between "em. By this method antenna analysis can be reduced to merely solvin,7 dif- ference equations of the second order. Formulas are given for calcu~.at- ing current distribution along the antenna and for computini,-, tiirectional diagrams, amplification factor, input resistance, and elt-iciency. Tw~) references: 1 USSR Submitted June 19, 1953  ,S'RR~ite nTc's Antennas FD-2498 etro ard 1/1 Pub. go-6/9 ,uthor : Model', A. M. Pitle : Propagation of plane electroma~,Yr,etic wave in a slace fiiied with ylane parallel gratings Periodical : RauIcte%hnika, Ic-, 52-57, Jun Ah,5 ra"A : Freienl i,)rk i3 devoted to invt,:;+ 1.~ratlon of r,-1- ~, it. )n _)f -. ~Iane eL~!ctromagnetic d%Lves through -1-CLes (_-T parai-Le! --rutingB ImIde 'T synthetic dic!.Qctric materi,l. he methu- of ara j Inde- h u the eler-'nt.3 (,f `Lm7. jenleii. v~~!t,mptr.!- I- hich define the f-.t ;vnlhL~,A,~ lie- ;nllex, reflet:t :on 3uch -is I hase velo(, L' tv, refructivE 'r~jt2 I,run3it -h: h ienc- -t-litY cf a j.Lane ',~nf e tit; Z Iune jr-atings a Oubmitted Dt-- c !mbe i 1)54  AUMOR Modell, A.A. "Elements of An Antenna-Wave Gudic Channel for plultichannel Radio Relay Lines," A-U Sci Conf dedicated to "Rddio Day," Moscov, 20-25 MV 1957. PERIODICAL: Radiotekhnika i Elektronika, Vo] 2, No. 9, pp. 1221-1224, 1957, (USS11)  6(4) PHASE I BOOK EXPLOITATION SOV/2322 Borodich, S.V., N.I. Kalashnikov, A.M, Model,, S.D. Manayenkov, and V.V. Petrov Radiorelef,nyye linii svyazi (Radio RelayNetxiorks) Moscow, 1957. 36 p. eries; Obzory po novoy tekhnike. Energetika) Errata slip inserted. 3,000 copies printed. Sponsoring Agencies: USSR. Goaudarstvennyy komitet po novoy tekhnike, and Akademiya nauk SSSR. Vsesoyuznyy institut nauchnoy i tekhnicheskoy informataii. Ed.: V.I. Siforov, Corresponding Member, USSR Academy of Sciences. PURPOSEt This booklet may be useful to engineering personnel working with radio relay systems. COVERAGE: The authors discuss radio relay lines existing In the USSR and abroad. They also deseribe the utilization of tro- pospheric scattering of radio waves in radio and television broadcasting. There are 10 references: 2 Soviet (both trans- Card 1A  Radio Relay Ndtworks SOV/2322 lations) and 8 English. TABLE OF CONTENTS: Use of Radio Relay Lines 3 Brief characteristics of radio relay communication 3 Existing radio relay lines in the USSR and introduction of Soviet equipment 6 Existing radio relay lines abroad and their use 8 Economic effect of introducing -adio relay communications 11 State of Radio Relay Engineering in the USSR and Abroad 15 Characteristics of equipmant 15 Antennas and waveguides 2_'~ Power supply and automatic control systems of unattended stations 29 Utilization of Tropospheric Scattering of Radio Waves in Comm- unications and Transmission of Television Programs -41 Card 2/3  Radio Relay Networks SOV/2322 Conclusions and Proposals -3j 5 Bibliography 37 AVAILABLE: Library of Congress (TK 6553 B59) JP/ec Card 3/3 10-7-59  A! ' / '~-) /~"' ATZINURG, Grigorly Zakharovich; otvetstyeanyy red.; I, - - TORONOVA, A.Z., red.; VrPMUB .. A"-.T-, tekhn.red. I [Ultrashort wave antennas] Antenny ul"trakorotkikh voln. Moskva. Goo.lzd-vo lit-ry po voprosam eviazi I radio, 1957. 698 p. (KIRA 10:12) (Radio, Shortwave--Antennas)  AUTHOR6; Ayzenber.-, G.Z., Mod c 1 A. !.1. ,PozdrYnk(.v, L.P. r ~ Ine r berg of the 3oriet7y- T I 2LE Cylindrical Lon..,- rino Short-;bive Slot AntenF-te shchelevyye dlinnovolnovyye i :jrednevolnovy:ie ir.ter,j) PERIODICAL: R~Ldiotekhrika, 1957, Vol. 1?, Nr 10, pp. 15 -46 (UL;_3R) ABLMACT: Antennae on low supports ior wireleu.,3 ire 2he :iuthorg show that by means of t, , -atilization of' cylincric-il J10t vibr%- tors, which are known within the ran,-,e of cer.timeter- ~Lnd deci- meterwaves, as medium-wave antennae, the hait;ht c-f tt,,(-' !~ntenn;~ can be reduced to 0,3 maintaining a ni.,h lef~ree of' efficiericy '-is well as the range of' free tr.-msinis.9ion demaneLl. .* "I e 3(? 31 1) t vi 1,r tors muot ue modified according to the medium-w,tve rini-e. ~he tesults of' theoretical arid experimental investi,,,7Fition13 t"lVen here. The reasons for the utilization of ~lich are in- vestigated rind the ways for the solution cf problems developing when changin,q over to lou sur.;orts --ire shown. _.'Le utrc;rs j,;,jw that such antenna muot be looked for in ahicn t,.e cur_ent3 to t`ip earth do not flow to one sint;le point but are daconcentr~,te_-: ~;ver the whole circumference. The curreyLt structure a3 viell a3 the C,Lrd 112 earth lo3ses in the near of a cylindrical slot ~_!;tmnk; -.re in-  .C~-lindrical Lonf~- and Snort-W;ive 31ot Antenrae 10,3-1 1 i J vestirl,ate,]. Formulae --re deduced for the calcul;iLion c~' the cur- rent intensities in earth for vibrations vvith the ej ht- Bind dianieter-conditiong ujed most in practice. By fneanii of the data obtained the earth system can be calculated. The directivity dia,2;ram in a vertical plane as well as the radiation resi.3tance of a cylindrical slot antenna are investigated. 1~he result'l of the experimental investigation are (,Yivent - 1.) The (11.3tribution of current over the circumference of the antenna viaj ~ilmost re- gular i7i thin the long-viave. 2 . ) '2he dejree of e rf ic iency waa 0 0 9 with two waVe3 of 430 and 530 m. 3.) The rz;nje of free tran3- mission was 18,4 kcycles with the 600 in wave %nd ~,j k cyclles with the 530 m wave. There are 11 figures and 2 ilavic rpferenccs. SUBMITPED: July 2, 1957 ASSOCIATION: Nauchpo--takhnicheskoye obahchestvo radiotekhniki i elektrosvyazi Popova AVAIIABLF.i lAbrary of Congress Card 2/2  V)U, A. Fl. B. E. Kinber, ,. M. ',,CDa: "Crrjj,~-j i)iarization C),.aracturiz;tic Gf r-iirrcr antennas." ScienLific Se6Li_4r_n -..c flRadic Day", Moscaw, 9 se~. 58 Emission created by linearly polar4-zed source located at a rarror focus does not retain its polarization plane. The polarization of eidission for an arbitrary ayisymetric mirror antenna excited by a source whose dipole moment is perpendicular to the mirror axis is arkilyzed. ':he (-rc,:,s- polarization pattern for sharply focussed antennas is one-half the (~fffer- ence of the pattern over the Frincipil polariz-tion comTonent in tLe i and 11 planes. ~he relative portion of tne enerU incicent is cross- polarization emission is calcUated.   n-, 00-r-al ,j f! M,~ 1 T, 5k 6f, Z'j VRfl!", e4 14"W -~Co res n q! `V- MTU ent," -A4 rj Al; e- imp -zq 4N  KOS IKOV. K.M.1 141TITELLO. ISAVITSKIY. G..A.. Mu.;c~V,,ml, Ye.G. SHCHPITININ. A.P.. FEMIN, G.A., otv.red.: GALOYA11, P.P.. red. SHEPER, G.L.tckhn.red. [H&ndbook for electric communications). In%henerro-tavhnjcIpSkii apravochnik po elaktro~viazl. Moskva. Goe.lrd-vo lit-ry ino vrnro-isn eviazi t radio. Vol.P, (Radio], Radlosviazl . 1958. I;rjo p. ~VIIRA 11 :3) 1. Russia (1923- U.S.S.R) ginisterstvO gvyazi, (Radio)  0 10 AL ft,- V%b ...... .... IV- R AL dmooa &V "m comtomw X"tfft of as FAU&tww ftd*WUCEMI G"(4tv -r zogtmmcw4 MA 1104trt"I commul"ttaft to. A. a. Pow mmix), *MGM, 8-IR awn.  MODEL', A. _(Leninprad); ZAHREVSKIY. V. (Leningrad) Device with a measuring bridae. Radio no-3:37-39 Yx '61. (MIRA 14:8) (Transistors--Testing)  GWOV, G.A.; KALIND:A, G.F.; 140DELL,-A.&VIIEVRAYEV, G.A.; SAMOYLOV, A.V.[deceased]; SVIRSKIY, V.A.; KOSITSKIY, Ya.V., kand. srkhit., naucbrqy red.; MANIKOV, 14,Ye.~ kand. med. nauk, nr-u--bnyy rced.; 140ROZOVAP G.,V,, red.; BRUSDIA, L,11,, tekhn. red. (Sanatoriums and rest homes; manual on designing] Sanatorii i doma otdykha; posobie po proektirovaniiu. Moskva, Gosstroiizdat, 1962. 223 P. (KMA 15:7) 1. Akademiya stroitel'stva i arkhitektury SSSIR. Institut obshche- stvenrWkh zdanii i sooruzhenii. (Sanatoriums) (Labor rest horms)  AUTHOR: TITLE: PERIODICAL: IModell, A.M., and Oblique incidence flecting surface Radiotekhnika, v. B/108/62/017/004/UO4/010 D288/D301 Talyzin, N.V. of a plane wave on a selective re- 17, no, 4, 1962, 23 - 33 TEM : The reflecting surface in forined by a parallel array of di- poles of 21 length, their centern separated by 2a and the parnl1el spacing being'd. Two general cases are considered: First, case "E" where electric field vector E is parallel to the dipoles, and m:.g- netic vector 11 forms an anele Y with the array plane, and the se- cond case "W', where H is parallel to the dipoles, and E fori.is e with the plane. Analysis of the plane diffraction foilows Talyzin (Ref. 1: Elektroevyaz', 3, 1961), by analogy with phenomena in a continuous reflecting surface; the reflection coefficient p = = E l(selective)/E2(cont.)O Case "E" is considered first for a con- tinuous reflecting plane, and formulae are given for the current density and the vector of reflected E. To obtain corresponding va- Card 1/2  S/lOM/62/017/004/004/010 Oblique incidence of a piane wave D288/1,01 lues for the dipole array, current distribution alonG the individu- al dipole has to be calculated. Expressions for It Zinput and p are giver, In terms of I0 (current node), 21, )- and incidence angle. For certain levels of 1/). simplified formulas apply. To obtain the radi- ation impedance Zi (E) of a single symnetrical dipole in the field of nei6hborin6 dipoles, Fourier analysis yields complex expressions containing Bessell heumann ane Macdonald functions. In the case "If" the mathematical treetment has to be simplified by assuming linear phase characteristics of dipole currents. Again expressions are written for Ell B21 Io and p, leading to calculation of Z, (H) which is then split into rea'. and reactive components. As an example of the practicability and accuracy of the method, 4 curves for each case are reproducedt pLotting p vs. X for yt resp 8 = OOF 22-50, 450 and 670#They show good agreement with measurem;ntl. There are 10 figures. SUBMITTED: May 24, 1961 Card 2/2  4). AID rr. 979-6 29 &'~ay 'i%,IODE H,,) DIFFRACTION ON A LATTICF DIAPHRAGM CONSISTIN'G OF N EQUIDISTANT RODS (USSR) Mod~j~]A. ~IMRadiotekhnika, v. 18, no. 4, Apr 1963, 12-21. S/108/63/018/004/003/008 The method of averaged boundary conditions is used to derive formulas f-r the coefficients of reflection from diaphragms consisting of n rods equidistant from each other and from the waveguide w4lls. The Q-factors of waveguide cavities constituted by two such diaphragnvs are calculated with an accuracy of 3-5%~ A comparison of the theoretical results with the e\porinlen'-~' Shows th,z,t at low i-oci-diaincter-to-waveguide-width rztios (d/a 4 0. 01), averaging boundary conditions on the basis of 2 and 3 points yields an agreement of meoretical and experimental data. Moreover, at d/a >, 0. 01, averaging based on 4 points greatly increases the accuracy of the calculation, and averaging Card 1/2 AID 979-6 29 May B10 [Cont,d] S/108/63/018/0o4/oo3/oo8 based on 8 points insures the virtual coincidence of theoretical and -xperimental data. The expressions derived make it possible to determine energy losses in the cavities formed by the diaphragms. The method of averaged boundary con- - -3ns can be applied to solving other problems. i. e. , for analyzing plane wave dif.'raction on various lattices in order to determine the effect of transverse lattice wire dimensions on reflection and transmission coefficienti. JDW] Card 2/2    I.- 2187.-.._66._ _WT,(1)/EWA,(h)_ ACCESSION HR: 4P5020761 UR/0108165/020jO08/0023/000 621-372 AUTHOR: Ma'del's A. H. (Active member) 1 TITIZo Series circuits for Waveguides LotekhnLka, v. 20, no. 8, 1965, 23-30 .SOURCE. Rad TOPIC TAGS: waveguide filter, resonatorl resonator factor, waveguide ABSTRACT: Rejector Ulters, the major component of which consisto of a series cir- cuit connected in parallel with themain line are oEti3n needed in waveguLdes. Such series segments can be In the form of a volume resonator connected with the wdve~ guide through slits in the wide or narrow waveguide walls. The.present duthor -carries out an analysis of waveguide.resonators equivaleatto serLea circuits and.... derives-expresalone for the determination of the Q-5ictor under load# the amplts~ tude-frequency and phase- frequency, characteristic fid tW3 magnitude of the.' si a -loss* The maxiMUM ftitd LntenaLti(is~.~iithin,ion~dnators and the reflection Co- efficient (from the restknatd~r)_~ tot'jarie detU'nIt1S-.:dre,~d1sd -And, Vf1gutes,.- has: 37 formulis Card 1/2  21837-66 ACCESS RRt AP5020761 ASSOC LATION: 01shc1lestvo radio" *qIGV Of IhIt &ginee feuktro~ _4 and :W REP sov: SUB- 002 ..C0D&t,,m ,-led OTfm 006 4 v I I J)'t k 4~,5.cl f .)j, f i r': 1# 1 j5e 4' 'Y 'Card 2/2 q  ',U( I I'_` I-C (k ) -2 !_/'4~-2 ACC NR1 AP6021915 SOURCr CODE: UR/010B/66/021/00310031/0037 ~AUTHOR: Model' A. M.(Actife member) ORG: (0"ci-r,Ufic and Technical Society of Radio Engineering and Telecormmmications im. A. S. Popov (Nauchno-tekhnicheskoye obahchestvo radlotekhniki I clektroavyazi) TITLE: Electromagnetic -wave 12ropaflation in two bounded waveguides of different c ross s ec t. ions ISOURCE: Radiotckhnika, v. 21, no. 3, 1966, 31-37 TOPIC TAGS: electromagnetic wave, wave propagation, wavf equation, waveguide ABSTRACT: An approximate analysis of electromagnetic -wave propagation in two bounded waveguides of different cross sections has been expounded. The waveguides l are bounded by a long continuous opening. As a result of analysis, equations and !diagrams have been obtained for determini iig the constant propagation of three type- I waves along the longitudinal axis of the syf,tem. Equations have been obtained Cord 112  L 44380-4' f) - ------------------ -~Mf& NR, AP6021915 for an approximate determination of the field structure in bounded waveguides. Orig. ;art. has: 6 figures and 30 formulas. [Rased on aLltJl0r' s abstractl (NTJ ,SUB CODE: tl* UBMDATE- none/ ORIGREF: 0011 hs Card 2/2  -L!00683-61 LWTM/T W ACC NRj AUMM yodel lp At no SOURCE CODE: VA/=3/66/L1OQ/001/b%3/bQ43 3Y Owl rMne -.-TITLE: A,device for connecting two radio relay systems to a comon antenna- Mo, do channels, Class 21j, No. 177487 -3 M.: OT zbretenlva,, prorr5mh1enrVye obraztay, tovarWe znakl,, no. 1. 1966t 43 TOPIC TAGS: waveguide, waveguide, coupler veguide-aatenna, wareguida elemeabe- - - radio relay 'ABSTRACT: This Author Certificate presents a device for connecting two ra0io relay systems (which-operi-1.4 Iti-d-ftferent frequency ranges)-~o a common antenna-waypgtddi channel.. The'device consists of a central wavegaide of square or circular croso section and of two lateral waveguides conneeted with the central waveguide through a aerie's of coupling wnveguides (see Fig. 1). The design provides high matching. Che lateral wLvegudes are shifted one in respect to the other along tho axes of the central ,taveguide by one quarter of a wavelength. The lal'Aaral waveguides are inter- connected by-a waveguide bridge. A ballast load in connected to the fourth Jarm-or this bridge. UM: 621-372.833 7-7  L 00683-67 AP(AM308 rig. 1,1 1 - central waveMdde of sqtwe or circular cross section; 2 - lateral wavaguidai; 3 - coupling waveguidael 4 vavegtdde bridge Orig. art.-hast 1 figures ,SUB COM: 09/ SUOK DATE: IVeb64 2/2 fv, 0014  N AP7005610 SOURCE CODE: IM/0413!67/000/002/oo4g/0049 : Ayzenberg, G. Z.; Model', A. M. None A passive radiator for a,k-adio relay line. Class 21, No. 190435 Izobreteniya, proWshlennyye-ebraztsy, tovarnyye znaki, no. 2, 1967, 49 TAGS: radio relay, signal trinsmission, passive signal processing, antenna BSTRACT: This Author's Certificate introduces: 1. A passive radiator for a radio elay line. The unit is designed for installation between active relay stations. he distance between active stations is increased by making the device in the form of solid or grid-type flat or curved metallic surface perpendicular to the line jo~n- ng the transmission and reception points. 2. A modification of this radiator made Yom a material which is permeable for electromagnetic waves. but with a phase velo- ity differing from the speed of light. The thickness of the rauiator is such that ,he phase of the field intensity an the back side is rotated through 1800 with respect ,o the primary field an this same surface. CODE: 09/ SUBM DATE: lqFeb54 1/1 UDc; 621.396.677.83  P~tbeL' R`Y~- CHEDQW, Takov redorovich, sostavitell; BOGDANOT, I.M., uchitell matematiki; MOMI, A.Ya. uchitell; GNUSO7. N.V., uchitell; PAVUK. T.I.. uchitell- if"" SWTA, N.K.. uchitellnitsa matematiki; BORISOV, S.A. uchitell matematiki; XITATGCRODSKIY. P.1., uchitell matematiki. [Teaching mathematics in the schools for young workers] Iz opyta prepoda- vanita matematiki v shkolakh rabochet molodezhi; sbornik statei. Kockva. Izd-vo Akademii pedagog. nauk EWSR, 1952. 128 p. (KLRA 6:5) 1. Akademiya pedagogichenkikh nauk RSrSR. Ina+itlit metodov obuchaniya. 2. Shkola rabochey molodyeshi No 52, Koskva (for Bogdanov). 3. Shkola ra- bochey molodyeshi No 31. Leningrad (for Model'). 4. Shkola rabochey molod- yezhi No 4, Moskva (for Gnusov). 5. Shkola rabochey molodvezhi So 65, Mo- skva (for Favuk). 6. Shkola rabochey molodyezhi go 71. Leningrad (for Edravexqslova). 7. Shkola rabochey molodyezhi No 32, Moskva (for Borisov). 8. Shkola rabochey molodyethi go 45, Moskva (for Kitaygorodskiy). (Mathematics--Study and teaching)  AM Nits APS028791 SOURCE CODE: WGI08-1651OZ01009/0046100ST TL U HOR: Model', A. Z. (Active member); Shishkov, G. N. (Active members RG: Scientific and Technical Society of Radio Engineering and Electroc lauchno-tekhaicheskaye obshchestvo radiotekhniki i atektrosvyazi) UTLE: Positive -feedback sawtooth-valtage transistorized oscillators analyzed MRCE: Radiotekhnika. v. ZO, no. 9, 1965, 46-57 TOPIC TAGS: transistorized oscillator, electronic oscillator, sawtaoth oscillator / ej- - ABSTRACT: Tran istorized positive -f6edback ("cootstrap") sawtooth oticillators have not come Into wide usage because of their too long flyback and insufficient sawtooth- oltage linearity. A new method of correcting the nonlinearity is suggested and thematically. substantiated; the method is based an controlling the gain of the scillator amplifier. Fundamental relations are developed for two circuits: with a sc [e-edback bwIttery and with a feedback (large) capacitor. For ell.nin&tIng the gawtooth- oltage nonlinearity. Introduction of a two-stage transistorized amplifier with.L 0 riable in-excess-of-I gain is recommended; the 2-stage amplifier replaces the I  L 11612-66 ACC NR, APS028791 .01 i1tter follower in well-known sawtooth oscillator circuits. An experinwntal rification with P101 and P105 transistors exhibited a practically Uncar transfer aracteristic and a gain stable within 1. Sfe at temperatures within ZO:t 30C. Also. i use of a voltage-regulatiag (Zener) diode In lieu of the large capscitor (feedback- Itaga source) is indicated. Orig. art. has: 9 figures and 57 formulas. ,B CODE: 09 / StMM DA T, E: ZZNov63 GRIG REF: 003 / OTH REF: 00 1  ARTYM, Anatoliy Dmitriyevich; MODEL', A.Z., red.; SOBOLEVA, Ye,Y,., teklm, red. [Theory and methods of frequency modulation) Teoriia i metody chaototnoi moduliataii. Moskva. Gos. energ. izd-vo, 1961. 24-1 p. (MIRA 14.,g) (Radio frequenc7 modulation)  Nam I I A.Z.~ DRANGINIS, V.V. ------ Highly stable terminal stages of lov-frequency transistor Swep generators. Railiotekhnlka 16 ao97&52-59 il 16-1. (HIIIA 140) (Oscillators,, Elootrio) (Television)  KODDLI. D. PrefabrIcateOt grain gAllary an the top of an elevator. Kyjk.-Aley. prom. 22 no.12:5-7 D '56. (KM 10:2) 1. Glavnyy makhanik treata Wentrokh1abostroy. (Grain. elevators)  KODELI, DA, Hlgh-speed gr.-iding of optical parts. Wed.prom. 12.no.11:47-52 Y,58 (MIRA 11:12) 1. Leningradekly optiko-eekhanicheakiy mode (GRINDING AND POLISHING)  MOMMI, D.M. Intensification of the process of polishing optical glass. Ked.prom. 13 no.9:49-51 S 159. (KIRA 13:1) 1. Imeningradskiy optiko-mokhanicheakiy zavod. ofAss, oprrcAL)  KIR01707, To.?., MODEL'. D.M. Intensification of the production of eyeglass lenses. Yed.prom. 13 no.10:44-46 0 '59. (MIRA 13:2) 1. Leningradalciy optiko-mekhanicheekly zavod. (GLASS, OPrICAL)  MODELI , Dfivid !-arkovich; BV.L-EL' , red. [Brief manual for *.he rr,#3'l'icr,'l KraTK4~1 ST--PvL.-:- - cl, c -I c, q L nik medillsinakogo -)ptika. Lertlli.g,-G, Medil.sina, IL - - . IP, ".)  MDELI, D.R. - - Acceleration of the processing of astigutic leallas. Ked.prov. 14 no.3t45-W Xr. 160. WRA 13:6) 1. Lantogradskiy optiko-zekhanicheakiy tavod. (GL&SS, OPPICIAL)   AUTHOR I. Sh. .56-4-12/52 TITLE Measurinj -of High Temperatures in Strong Shock Waves in Gases. (I"ersniye vysokikh temperatur v silInykh udarnykh volnakh v gazakh. Russian) PERIODICAL Zhurnal Sksperia. I Teoret. Fialki 1957, Vol 32, Mr 4, PP 714-726 (USSR). ABSTRACT The present p.xper describes a photographic method for the measuring of nigh temperatures and of the coefficient of the absorptio-a of radiation by gases In a plane shookwave. The individual chapter* of the paper deal with the photo- graphic method for the measuring of high temperatureal the employment of the photographic method for the measuring of air temperature in a plans shock wave, measuring of the absorption coefficient and the absorption capacity, to well as the measuring of the temperature of heavy rare gases in strong shock waves. Some Conclusions: The photographic nethod discussed here uses the comparison of the density of tae photographic image CARD 1/3 of the front of the shock wave with the density of the  56-4-12/52 Measuring of High Temperatures In Strong Shook Waves in Gases. illustration of the temperature normal in a navrow wave length interval. The author develop* a method for the working on the photoohronograme for the determination of the coefficient of the absorption of the radiation in the front of the plane shook wave. The temperatures measured in the plane shook wave measured in air amount at velocities V w 6,41 7,1 and 8,05 km/sec respectively to UPO; 92709 109000K. respectively. The accuracy of theme tehl~krature measurings amounts to + 10%. The experimental data obtained agree satisfactorily ~Fith the theorstleally oomputed values. The coefficient Of absorption of the radiation ( A -096256b in the front of the plane shook wls in air at T - 74800K amounted to T - 74800K to 1,66 cz- and at T - 109000K to 397 08-1. The lemperatures stated In the front of strong shook waves in heavy rare gases were by several degresa lower than the compixted values. The analysis of the possible reasons of this disAgreement showed the followingi At very high tempera- tures the heating of the gas located before the front asoen- tiallj influences measuring results by the radiation of the CARD 2/3 shook wave. The layer of gas heated by radiatica becomes  11 -, - /52 Measuring of High Temperatures in Strong Shock oaves ia Gasers. nontransparent and screens the "hotter" front of the shock wave. The temperature of this layer is always lower than the real temperaturv of the front. (With 14 Illustrations and 3 Tables.) ASSOCIATION: Chemical-Physical Institute of the Academy of' Science of the U.S.S.R. PRESENTED BY: - SUBMITTED: 30-11- 1956. AVAILABLE: Library of Congress. CARD 3/3  SOV/56-34 -3-10 '/5 5 A UTHORS: Samylov, S. V. , I'slikerman, V. A. t Modell, I. Sh. TITLE: The Glow of Gases Irradiated by Soft X-Rays (Svecheniye .-azov pod deystviyem myaakogo rentgenovskogo izlucheni.,ra) PERIODICAL: Zhurnal Eksperimentallnoy i Teoreticheskoy Fiziki, 1958 Vol. 34, Nr 3, pp. 5?9 - IS08 (USSR) ABSTRACTs The purpose of this work is a more detailed investigation of the glow of gases and metals under the action of soft X-rays. The authors explained the dependence of the intensi- ty of the glow on the type and on the pressure of the gas and they also obtained some dat- on the mechanism of the transformation of the X-rays into vi3ible light. First the experimental method is discussed in detail. A diagram illu- strates the results of the first measurements and of the intensity of the glow as a function of the air pressure for Be, Cu, 1,1o, Sn, and Pt. Theae measurements were inade by a photoolectronic multiplier. The absolute yield of '_, :.1. 11'~'_ creases with increasin,, atomic ntimber q1 t-! !et ii. When the Card 1/3 pressure is r0duced from 760 to 7 to 10 mm H9  The Glow of Gases Irradiated by Soft X-Rays SOV/56-34 - 3-10/5 5 the intensity of the glow increases in most of the metals. A further diminution of the pressure leads to a monotonous decrease of the intensity. At pressures of about 10-2mm mercury collimn and below the photoelectronic multiplier with the maximum amplification records no noticeable yield of light. These unexpected results showed that the obaerve- able glow is not connected with the fluorescence of th4_~ me- tals under the action of X-rays. It ;Tds supposed that the glDw of the gas in the chamber is excited by such electrons which are knocked out of the metallic surface and of the atoms of the gas according to the photoeffect by the Roentgen quanta. The added photographsof the glow in the air of the chamber prove this assumption. A further proof for the elec- trinic nature of the excitation of the glow in gas when ir- radiated by X-rays resulted from photographing the glow of the air in a magnetic field. The arrangeme nt of this experi- ment is illustrated by a figure. Further diagrams among others illustrate the rollowing: The dependence of the in- tensity of the glow of air and argon on the pressure in case of absence of a metallic surface in the chamber, the pressure dcpendence of the intensity of the glow of a mix- Vard 2/3 ture of 80 % Ar + 20 % 0 29 the results of the microphotometric  The Glow of Gases Irradiated by Soft X-Rays SOV/ 56-34-3 -10/55 evaluation of the spectrogram of the glow of argon at atmo- spheric pressure. The laot paragraph gives a detailed dis- cussion of these results. The following can be assumed a9 proveds In case of energies of the ionizing radiation, by far, surmounting the ionization potential of the gas, the glow occurs as a consequence of electron transfers and it is essentially determined by the atomic and molecular pro- perties of the gas, by its density and its admixtures. Final- ly the authors draw some practical conclusions from the here described experimentE34 these conclusions are of interest for working with gas-scintillators. There are 9 fiE;ures, 1 table, and 17 references, 5 of which are Soviet. SUIRUTTED: October 10, 1957 Card 3/3  KUZNETSGVP F.O.; IS EVI N.N.; MOIWLI, I.Sh.1 TSUKERMAN. V.A. Using coaxial photocells for recording Wgh-speed lumin us phenomena. Prib.i tekh.eksp. 6 no-5:132-134 S~P 161. (.URA 14:10) (Photcelectric measu--ements)  d" z-1 9 2/ AUTHORS L ob ed ev, :;. N. and :-1od ei I - Sh. T 1T ,, F, - i-'.1ectronic photo-recorder ;121~10DICAL: Pribory i teklinika eksperimenta, Ito. 1, P)o_ 16q - 17-' T Th v i ris t rum ent C ii 11 1) v U 5 Od t 0 1 nVQS t 1 ,,1 1- V VZ1 I' L (III I L -1 11t. i)h enom ena ( n i t h er i n t orna I L y or ex t erna I IL imu ia I ed at time-base speec's from 10 - -'160 km/s. The from the investigated object 1.s projected by an input objecti-e- onto the cathode of' an electron-optical. converter through a -,~Iot situated near the external glass wall Of the )hCAOC,1Li!0dP. C h light image is converted into an electronic ii-.iage by i lie i)hot o- catilode. T ;e latter is focused and accplerated by the eleclro- static f-elo. of an electron lens which is formed by the photo- cathode and a diaphragm. It is then transmitted to t:ie output fluo--escent screen of the converter, where it is convorted again into a visible image and can be photographed. During the transfer from the photocathode to the screen, the electroii bean Card 1/11  S/120/62/00rj/GG1/G!1_1/06l Electronic photo-record~,r E192/2382 carrying the image passes through the electric Cields of' nuaiber of deflector plates o. t1ie EOC and it Call hO controlled. Control of tiie exposure time is performed by two pairs of electrodes %-.rhi.ch form an electronic ShUtLvr Opel-aLed by a shutter-pulse generator. This zenerator is t.riggered at the required time instant by the investigated phenomenon by employing one of the standard methods (Ref. 1 - L.V. .%l'tshuler, Krupnilrov, D.N. Ledenev, V.I. Zhuchikhin, V-I. Lrazhn-ik - Zh. eksperim. i teor. fiz., 1958, 34, 874). The signal oi' trie converter is shaped into suitable triggering pulses and thes(. actuate tlie shutter-pulse generator and the time-base. A Cl.rcuit diagram of the photo-recorder is shoim in Fig. 5 (1 - tri-4cring, input; 2 - shutter plates of the EOC; 3 - two 1101-iZorIL;1I plates of tn e EOC). T'ie electron-optical converter is 011' LI-10 type ~-/ with an Sb-Cs PhOtOCaLiiode having a sensitivity of 70 liA/iumen- Glef. 13 - Butsiov of Scientific Photography iUspekhi nauchn. fotogr. v.0, 1959, 76). 'rile triggering signal froin t' e investigEted -effect actuates the shaping circuit which, in turn, actuates the Card 2/4  Electronic photo-recorder El 9 LI./ E5 8 2 shutter-pulse generator and tne tinic-base. firsL 1.111)e of the circuit of Fig. 5 is triF.,~-ered by the first si-g;iil from, the converter and all t:-ie following pulses have no efloc'L on II After completing the inv(,stigation, the ti,be is e-xtinguished oy means of the Rey K . The positive pulse prodiicod AL ti,, cathod e of the first tube is AppJ i ed to the anod P and th(~ f I rst grid of the second tube and the --rid of the fo-.irth tube. .1% shutter pulse having, an amplitude of +450 V is thus produced at the anode of the second tijbe. 'this is ampLified bN, the third tube, whose out, A is 1.0 kV; this is thon appli06 to the shuttor plates oi' the EGC. ~imultaneoiisly with the s hu t t or , t li, PLIlse from the cathode of the first tube actuates the I'OLII-1.11 I Ili CI where a negative pulse having an amplitude of 3.5 kV is )hL-ained at the anode. This is applied to the horizontal deflection plat'es of the LOC. TIiis time-base gei,erato& makes it to control the velocity of the electron beam within tne rlnf,,,e from 10 - 280 Im/sec. The instrument is also provided with facilities for shifting the image along the horizontal axis ot the converter. This is done by applying a direct voltage to one Card 3/4  S/120/62/000/0G1/0-,2L,/O61 Zlectronic photo-recorder E192/C382 of the horizontal plates , the magnitude of this voltagf-- bc-i-ng adjusted by the 2 IMI- potentiometer (see Fig. ~). The authors express their gratitude to V.A. Vanchurin for help in the work ,ures and in writing this paper. There are 7 fig 5 UBMITT ED - may l.8, l.961 Fig- 5: U103 V I- Q;JJ ig, Ir /a Y1. 17, 6fl 7C A, 6117r q0t; not -Y r Joll o A,; B. 14(y A, 5-mv"I 17,0 05 10tv n2 4 Ar 04 7m 4, ~7 Card 4/4 ISIDOV -----------------------    L 4lo82-66- EWT(d)/EWT(1)/EWP(m)/EWT(M)/EWP(t)/&TI IJPW JD/WW ACC NRs Ap6o27950 SOURCE CODE: UR/0020/66/169/003/0547/0519 AUTHOR: Vqyteako, A. Ye.; Model', 1. Bb.; Samodelov, I. S. ORG% none ~ITLEs Brightness temperature of shock waves in xenon and air SOURCE: AN SSSR. Doklady, v. 169, no. 3, 1966, 547- 15(9 TOPIC TAGS: shock wave, brightness temperature, SWore c.-jnve vroclr~-, k",CA101V; R.,& ABSTRACT: Experiments were made to det3rmine the dependence of the brigh4ness temperature of a shock wave an its velocity. The shock wave was generated in a specially designed asGembly by an explosive charge. The charge ruptured an aluminum diaphragm and discharged into a hemispherical vessel which was closed by another diaphragm connecting it with a cylindrical tube; the hemispherical vessel was filled with hydrogen, which, after rupture of the diaphragm, generated a shock wave in the cylindrical tube filled with xenon or air. The maximum shock velocities In xenon and air were 37 and 43 ku/sec, respectively. The brightness temperature in xenon had a maximum of 50,OOOK at a shock velocity of 18 ka/sec; vith a further Increase in velocity, it decreased to 23,OOOK. A maximum brightness temperature of T3,OOOK was recorded in air at a shock velc-city of 43 ka/sec. Orig. art. has: 4 figures. [rVj SUB CODE: 20/ SUBH UATE: 228ep651 ORIG REP: oil/ ATD PRESS: Card 1/1 11b UDG: 534.j~12,2;53,~  VOIN47-1, Kh. If., Cz~~nd of lo Sici --( iiss) "Pnenology of tow V;daria V~s(~.I;tc) Arlopheles Ilaculir)annis MG-ii,; in Be,orussian SSR," Minsk, 195-J, 15 P~ ('1-1 or!'!: - -':-, ~A'l ~ ~' Un'~:ersity Lm V. 1. Lenin) (KL, 8-60, 1-5)  SAVITSKIY, B.F.; MOL6L, Kb~M.; MISHAYEVA, N.P, Bloodsucking mosquitoes (Diptera 'Culicid-;~-e/ Of thle Russian S.S.R. Ent, oboz. 41 no,2:350..354 t621, (MIPU 15.11) 1. Institut mikrobiologii, epidemiologii i gigiyeny, Minsk. (W'bite Russia- Mosquitoes)  L 08711_6Z EWT(1) JK ACC NRi AP6034116 (A,N) SOURCE CODE: URj0358/66/035/005/C-607/0609 ;L AUTHOR: Model', Kh. M.; Miahayeva, N. P. ORG: Belorussian Scientific Research Institute of Epidemiology and Microbiology,_Minsk (Beloruss~i'y-nauchno-'~aa:edovate1 akiy inst tut epidemiologii i mikrobiologii) TITLE: Studies of the fauna and ecology of bloodsucking mosquitoes in the Gonel' oblaot of the Byelorussian SSR - SOURCE: Meditsinskaya parazitologiya i parazitarnyye bolezni, v. 35. no. 5, 19660 607-609 TOPIC TAGS: animal disease, disease vector, mosquito, 4., PC04 C) 0 V ABST-ACT: Twenty species of mosquitoes were identified in the Svetlo- gorsk rayon, including 16 bloodsucking species (aubfamily Culicinae) belonging to the genera Anopheles, Aedes, Culex, and Theobaldia, and two non-bloodsucking species (subfamily Chaoborinae) belonging to the genera Chacborue and Mooh,onyx. The most numerous and widespread species of bloodsucking mosquitoes were Aedoa communia, Aedea exoru- ciana, Aedea punotor, and Aedeo maculatuo. The chief breeding places for Aedes mosquitoes wera forest and meadow boge. sinkholes. trenches, UDC: 576.895.771.01+576.895.771.095.11 LCard 1/2 ___(4~76.2)  L o87ii-67 ACC NRi AP6034116 and ditches. The seasonal population of Aedes mosquitoes (late April to' early September) varied depending on the bioLope. The average I number of mosquitoes collected in 10 minutes was highest in areas of nettle and Spiraea (meadowsweet, etc,) growths* Orig. art. has: 1 fig- ure. [W.A. 501 SUB CODEt 06/ SUBM DAM 03Jul64/ ORIG REF: 002 not Card 2  ill(II)II'l" I I . 1-1. T - j ~ - r c - ' 4 - - I ~- , f tr - : ., ! , - , I . - r - I I , . 1, - r I . , I .. . ; . I . : j , I - -~ ! ,, -!"'. , 1. -,.- ~ . ~ .1 1 .  "C-DE' 1 . - - L . " . . r -, . . + . I ~ . . . ; 1. . 1, 1 r r_, e 7:~ I'i +- r; ~ r, ~ i! -,- . - c 7 - '. : . . .. I . . . . -(I ~ 7n ': . 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XUA11W 11IN all) Imp -allijill .191m wil ba'"114.1d 00 o 0* 91 in W43 Mp v T"alp"Suba NO 11"m salsipAwmijoi, IV waps)VIIA -sit) Istijawad !"p j4) F1 Stu-millsuort "-I!= -,qi IRV axm-ll v -A) 1b*)3r,,1jd laq "Dwimil"I 00 D41 Ott, Alp - A)!" p- sinjuacl *jjN gqL o1w, It 00 PUN-) 3q) tq P- P- 0Dn-ft*I)jj-1Vj 0 e 00- i so. 11 'wow *?1 -1 Ott wn:,m pvv tv;Q 00 so, 00 w o0 00 000 t. r 04 w 91 a Is a a a A a $I a a 0 a I 9!0800000000000000 000#0000000 ~1.dq 0 0 '44000960099900911, 9000000099099000::01  03 1 loss I I a IIf a A 0 a It 10 1 a IS 61 a As u IP a a P a 41 v a, C4 so --L- I- 11A 0 CC Q a I I V 4 00,11ros voc'MIJI &40 facof I,,$ -,.I. A *a a authat x*&m for hdwcbe iso:dU. ik Si&l" Z Mtk 6" l H S M A ,o ova. . . . - . Model sou logstatituatformA. (U. & S. RJ 19, IM-1 & MCfequirtatcutsol GG Koch's bacillus age sawl. tocia.; only w tug. % aw IS - - tug. "- nsp The SO. coma. mast not fall Wow 0 A * -- , Tb c th Rf dSO dt K l . e w owm.cwtnw e sait o Mg ~ . comas, of do paxoptutto of the bacilLi. The P rcqutfe- meat he 50 mg. %. When auScient axiacra %Its ar~ ptescut fqr puvok. On utilization of Nils dEvends U f b h 1 00 e concn. o nu t ' e 0 e. ~ * 0 asod, a. e coinpletc to t h utilitoodact of all cletutats po-escut. A satt-Jactocy ayn- thetic asedium consists of 3-0 g. K,11110.. 0. 1 C. Mg.,W).. S.0 g. Nil. 0--f-te, lW.O C. glycefol and distd. vrat" t. -,BkX) cc.; p" 7.2. S. A Kariala :00 ;0o 0 a zoo Of 0 0 0 00 1 At. IL. ItWIIII-T-O- 00 .00 t to 1. 4, 40 te to It v do a It go A o 400000000 , ler 0000*000000 s ::::l : A o osooo s e oooooooos eeooeooooooooo ooooo '  1 0000000004** 1 fl. 4000 FT 40400000000 'CO A f. AL j A T Ij .-t let 00 00 A atitadAcd caacaiuet for the defortmashon of Istil. acid. %L. U-1.4, 1~6~ /I,aks~ (I S " k IJ. No t Aw" zfqlr 1918, 11, 1 - .-1 J ljwmc 00 ........ 1-bil, w., th". -lk I ~J'. -00 It ,I m I 90 00 z:: 00 C-0 0 00 09 coo 00 41 00 60 11 '06 6 0=9 .00 600 woo got-# too I.$.- J- ill L a fid a I TA v IV l. K CIE OI a 1 4 0 Ole 0 0 0 0 0 0 0 0 0 0 0 0 0 6 0 0 0 4 0 0 0 0 1 0 * 0 0 * 0 00 Ole 00 0 0 0000 40 0 * a 0 0 0000 00 00 00 000  19000**00*0*0660660 0060060*060*0006! 0 6,31 @t0 Ill!, 1 11 * 000000 00000000000 A ' 11, F U It T _ 10 11 U U Ad a u I t 46 IF 4 Of 0 41 a a a -.a* j@ 4 Ai 0 1 0 6 0 a 0 A I olt c 09- 00 Tito determination at reducing tuaccances and ~06 00 oxygen iL urine by the dichromato Method L-ALAludcl. 1,11 11p,,ki ~U S. S. R.) 16, No. 4, It 12(194li Add 0* 00 a; I fill of urnit in a 1.1jo-ttil. tIAk.*I fill of I N K,Cf#04 and .0* ol onsed. I4SO, and vini by C.4atuis file 164 1 Larly Make a ointrol cxpt with the fitale f Ag Of 0 00 11 t.41 I ml.ol4fifld. water llw.-J,14 urine. If, of dt, z add 5 MI will C-A W ilin Wat " i t . eir " n a w . . g w.atef And 10 nil of 5",, KI to frich II&A and titrair the ail ~ fro* ,VO, in the pirmuce (If 1-2 drups Ill -Ikl, I with 0.1 V. 04 0, itAruh The reaction bttwIres X.Cri" anA N&Cl in the 0 Ilftclu-ir of 11s.S04 takt-if plArr according to the equation a ~ Ah - 301 + KiSO, + Cre- KCr,(h + CNaCl + 711t ' a* rhe no. 4 nil. of o. j N cr.- 0 Vst).). + 7111,0 f - OOV u,CII (tic the oxiclaticin of the recitwing sutntantvs in 00 4,h - f COO I in of urine is given fly 30 - (a - b) where a is the no. o 1. X 214.'~~,(). ti~i kW the fitratstin .4 lhe ,orilrol , 1 : c ), U" fm the filtration 1. flo. of nil. of 0 1 N NX, and 6 4 oo of I tic urine. litiring the onstWion o( the rvil-Iring -h Z:O 0 ~t rwcs in urine I fill. fit 0.1 N Kscrift, lilwf2trs 11 M Ina of o. W R. Hello See so fit -lee nee itillwicallca woo 3 - 1r -7-7A W o U St AV 40 Al A 19 Un 11111 nun it% A W 0 0 0 Sio 0 6 0 0 0 0 0 0 0 0 0 0 0 0 1. 0 0 : 0 0 0 0 0 0 0 0 0  I YODEL I , L. M Exptl. lacrobiology ~Izl-p'~, InE'. for 3r;~. Pese;~rch on T~.berc-,,I-sis, "Experiment in the Prep,-r~fl.ion of 'he " ilbrrc,~line on S--ntheti(- iforiiiun." Zhur. ',a)-robiol., Epidemiol., i 'To. - ~ -~-t I - - I I _11, 1 1 1  "CDEL' , L. ". Tii'-,erc-~~- -! -- -- I- T- ! - 1-1. - -.. I .  elf EftictenQUACC FVOW11CIS of MitnIMM ites L. U.-I(a4d 4Mjjjjry Health. U-S-SA-, Urnic ui hum.4n orallrall origin mawets ta'ambablef that cAn "'tell-ilfTly [VIM'941 the 1114%CIOP"Wat of ttw tuberculoqjs K-timst, rhe 444t),iAnc" apteAt to be dctivs. 01 &tninu ."I'l mAY tiq jefluc'l "11114"k-1 "t "11"'d "'4i, -" MI U111147 to IM It. C1lItUFC FlAttitAl "it kAJ I, 'uppfe"I'm ~4 %tit-C"UtAt IIAOCIiAl growth wheo Ow ors 'mill) %upplytild the urille is In& a high Protein dict , "Ir"I an') C"llage Clkv-c) ; imre-twd amt,,. 4 fAt In the li'l dv 8'..tw tfw effect. 14,41014t. (Cd excluovely vettel 1 1 .,file LIICI 41111 I-WIA VOC14MCfAllff Affftl. Of the IkCletgo- o4tic awittet tit tile wine; tile cilcet to puticulittly uoted -Un tuber vvgrtal)lcs ife the bulk olf the diet; stamb" the etlecti 's of the UrIdAty MetAbOliteS. II1KW UFIIIC J--% tt~ (~tCas to a Very high &CVCV. w InIr In tile i, Icv, Imitelit, di,ptAving its CtTT':t oulv 14 9 111 4 $1 .'rr per 25 mL it itutricill lurdium j the . 'Oturev. o ale 1,)Wvt Allits. 4t,tuAlly Sumul.Ate IL41- tcrul gwwth~ ll.atwist, crith tutterculmat kulneys di,.I,IAY %cry I- Activity of the arlite. Simv frVIII'llthdif And lVt-111V TCI1(C%i WkIMAI 11foirth (WIPM111AF). tIW&f lUtt-t I.ilic Item. Illighl Ile fe'lX111,41de (.11 thr CITCCI; phrficvl~ r%clis'le'l owililt I ) fcI.61ivcIv I41w artivily. Ufillc diii ulidef mid moditim, I. ittefftctive. li'll uritic di,tillAte ahtaisted under alk. t"iditions is highly 1,,Itrnt, white tile distn. reticlue contg. nonvotAtile arnim dcrivi it "wiiWlly as effective as the utine jwnper Ad.wptimi ati petimulite. followmi by elation with NACI iind KCI -,Iraq W to jt,GrtW wNwtit"i 4 the activ, it-lict. -v, Ilve efflitent itriar wai still b.teftflowtativ, hat thr vlu.t's -fe hi4hly Potent and dilp""I tn3ic,id armiftV rea,lim" G M Krcic,Ukpoff  MODEL' t L. H. 25899 Mdell, L. H. 0 Raumozhenii Tuberkuleznykh Batsill Voligo- aer,obnykh Usloviyakh. Byulletent In-ta Tuberkulaza Akad. Xsed. flauk SSSR, 1948, No. 1, S 21-24 SO,. Latopial Zhurnal Statey, No. 30, Hoscom, 1948  MC."il'S L. N. For Prof essor L. -!el s ut, i lee iatrist 7 l -ta tuberllileza Ak, n j0: 1;1~ f-larcl, (Lc to~ L; ,.tturn;,t IriyU  MODELI L. ',. Model' L. 14. "The problems of t-be.-culosi3 ~'n tne Ii,ht of Alictilivinist bi,lc,V," iyulleteril In-ta tuberkulesa Alkad. rw-d. nauk 333R, 1949, NO. 1t p. 7-12. SO: U-3736j, 21 Aay 53, (Letopis 'Znurnal Inykh 3tatey, No. 13, 19:4)).  MDDV,Ltt to me Nodal', to M. and Golldfarid, R. A. nnd loffe, R. A. - "Changes in the chemical composition of the spinal fluid of' tuberculosis meningitis patients undergoin4 streptomycin treatment". Trudy Akad. med. nauk SSSR, Vol. 11, 1949, p. 133-442. SOi U-4329, 19 August 53, (lAtopis 'Zhurnal Inykh Statey, No. 21, 1949).  MODEL" L. M. 33469. Nauchan Fodvig I. P. Pavlova. Problemy lpberkuleza, 1949, No. 5, c. 14-17. SO. Letopist Zhuraalinykh Statey, Vol. 45, Moskva, 1949  WDEV, L. Ill. 25248 . IMDELI, L. !!. 0 F-atofizio.-,otich~!skom Znachenii Tovys~ie:.noy Chvstviie, Inont! Y Tuberkolinu 'uberkuleze. Sov. Meditsina. 1949, No. B. S. -E. U- SO: Latopis' No. 33, 1949  MOIRLI, L. H. Contemporary problems of inaunobiolog7 of tuberculosis. Probl. tuberk., Hoskva no.4:16-23. July-Aug. 1950.(CIML 20:1) 1. Of the Institute of Tuberculosis of the Academy of Medical Sciences USSR (Director -- Z. A. Lebedeva).  1-j q 11,6' T'herspruftc diet as 0 (actoor d (111proving Oto stabdify ol tho wC&U(sm agairtat lubeccutaus I I-" lk!-11 1951 \,, ~4. ~l -. -.1 .... t,,l .. .....I N.avfl,~ ..14.1 , It4likill. I CAI'.qrfl., ~ it., ....... .% It gt..~.p ~ ... I k ,, 11, ,,.1 1 . St K  cA k1roducts at trandormation d p-amitiosillicylic god t PAS) in the urtne L. 2%1, Mod~J. P,,W,-y F-I-k 1951, %,, S. 71 -A beief statement oncerning tile CIIIIIIIIA11011 14 nrw wilst-inces in rise Luinr After PAS trrAlintnts It s, mu :ezted that these sult,tancr% are glucurcinic dui% ~ -f PA., ilrowiti,vil ImiNbly fly (tie liver ilctoucAmn roufr Tlu~ -Mld VxPlAill tile apIwArAnce of suicar in 1114. ulme of *udi p.itivilts. Tile niplithuct"rim4 tc%t for slucutont, -0 can be Used for detectiou 01 such substances Ill the U1111r. G, M K~,Iaj-ff It ti  Vonthl- Li6t oL ~~ ~cc  Modell, L. M. US'SR/Medicine - Infectiou,,q Diiea3es Jan/Mar 53 11L. M. Model's 'Biology and Biocheinintry of Nt~!~rculo--ji.,3 11-lycobacteria," " Uro A. Togunova, reviewer) Vest Akad Med Nauk SSSR, No 1, pp 49-52 States that acc Model's book (Biologiya i biokhimiya tuberkuleznykh mikobakteriy), fatty acids do not suppress tuberculosis bacilli, which easily oxidize then. Sayd Qat 2CC results of Model's expt5, auxins suppresz, the grow-th of tuberculosis bacilli i~.j vitro. Mentions that Modcl'5 book discusses thlosemicarbazones (e.g., praacetaininobenzaldehyde thiomemicarbazone and the USSR drug, tubing synthesized by 1. Kh. Felldaian), whLch are effective drugs for the therapy of tuberculosis, and says that tubin is particularly effective, because paraaminobenzoic acid does not exert an 2nta-oni3tic effect on iT. Refers to Model's monograph as a valuable contribution to the knowledt;e of the bio- chemistry and physi\logy of tuberculosis bacilli and of other acid-resiatany mycob2Cteria. Book published Moscow, 1952, by Acad Med Sci USSR: contains 2119 pp. 265 T 31   k( .P*40