SCIENTIFIC ABSTRACT YUROV, S. I. - YUROVA, L. N.

49VOtOID6110"s. 19% It 2s pp 1$0.111 (=Is) A23TUCTO To&& to 6 topers an to* deliberations bold fro& LOCLI 2) to 20 oil %4s orogintors and' depGristAt bases or the t0atkntaxl super. VLO14%. at SeedoUsal activities of Cho Central AAM101411rattes of 44044al ant Coztegrapbr of the Sn SM (Department If too tAtorsor or the U321). Opening speech ODA report by the ANAG or QVQK (SUbw of geodesy smool Cdkrt*Sr*VV). JL. 4 6w ) "On to* Saw Tasks, of the G9G% With Respect %* the or TOPGSropol"I oad Goo4stLo Work at tapartance to she 101aaal Zaaaway, such #4 the &=I$sla of the AccAracy of a 04 Zoasur4moonto is Tr1AWla1tOaOLQf' to* 2ad AnA,5rd ClAO:;: :. . Me* Applicatica or Optical Unq* Ponders, in C*a4otl* I s. Uspoommkir. Cand1dato of Technical Soj*oocts. ropor%wok *Do sewe results of too study of Centers and searion olitots Sklo TorrItory of the V33A.- tRgL4*tr P. 1. Durnovs' -11" Go*. - Q4rAphO.*L jadjaytr tastru"e.oto for Topographical F1Lat -4.14TV110 " *T% Technical Ploaslax or see 0*064tiaol ant o Te"Craphlo larval&.. SAILAGOr B. T. Trattaks:j 1ACsrkjc4 Palos, for the Preparation of Ourvero.. VoCtim4ar 1. 1. Styles& -A*g. WI&SLA. Noth#48 for the Votaralmausa of Beach MA3 141401 Mott. or$.* Rominswr S. I T rov ' 'On %be Overall treparstsoooo, for 4 ~ Cartel. rb`4014W- -D-;%AVrQdOv$ -To* Chooklag of 51*r*o. ~ survoya An the AQP-Moscov.. S. U. JEOUthis. I-ra. ftst9r Of T*41kaL"Z loloacest -The ;I*# or Sjoneatq of arlostalloot to rr.psration at A*r4al rbO1109"Phl and UproymmomSo Is the Ace,racy of StorsoaoopAft 4. Xrejb"nikow. Condi"to or Teahalool 04144""1 -sees ROMTkO an to, V. To, All C -06 j9provins 11be omoolitato of Uqhnical salmos". lts ru polo quality of Aerial Photon.- 1"jagor rAeass, -too. aft work AN P1414-PartAtioalng JA the 0- &- ;TkltQvt *On the Present Slotgo at Toenjolcol Ia#o;v.&&A6m Car Q*Stttif far%-' rartberscre the moo*siooo; deal& vttb too a,,. VAce'doot of "he AcWL t''%. Altus Ormt 19m. lavotr discussions fallen.& 4he 00 APr'I 20 lot head 41141SOAft Of, to. AUP Mt 911. dollaborAt.rg 6r So* X110L I r' (110s04- SaCtOtOtIO9 Institut* or Goc4.sz, A*ro. BaSt"M04Y X114 CAVI l M 1 d ti ) 41 l ons rob . OS S- 0008mo sawo ot-s a 1Z oslod to 1414 gain at tko IR611tatoo or Geodair (Lecture by P. S. x4likkov. Processor. Dooloar It T*Ohmj,,l  ~iUTFIOR None Given TITLS: Chro~ ic1c n- - (Khronika -RIODICAL: pp. 77 78 (U3511) 1958, Nr 6, Geo~;eziyp_ i knrtografiyal i;B~,TRACT: From April 23 - 28, 1958a 'Conference of the Chief Engineers and:Directors of the Technical Controlof Aerial Surveying nent.erprisea took place at the Moenow Central Bureau of Sur- veying and Cartography of the Ministry of the Interior of - the Us,-c,-R (Glavnoye upravleniye geodezii i kartografii MVD SS-,;R). jt:dealt with the imorovement.of the production organization and the quality of topographical work- in surveying.of official iml --following lectures wore held:~S* G* Sudakov, portance. The Deluty Director -of the Glavnoye upravleniye geodezii i.karto- gr:af ii UVD SSSR on: "Main Pr:)blems in the ?urther improvement of Tovographical Vork in.Surveying of.Official Importance". The.0hipf-P,'ngineers of the enterprises held the following lectures: S'.- G. Gavrilov - "Technical Projecting of Topo- *' 'Yurov-- IlComprehensive gr.-Eaphic al -Geodesic Field "Tork"-. 3, 1 - - formance of the Position- an&-'I r X, ~~uti6n Orientation of Aerial Photographs"# B. D. Zaprudnov - "Taking a Combined P!aotograph of Flat Country Covered Ylith Foreets"t L. A.  Chronicle Yashin "Organization of the Financial Administration in Field, Subdivisions of the Aerial Surveying Enterprise North- Caucasus"; M. V. Avilovo Director of the Stereo 7orks at the NIAGP - "Control Oneration3 on Stereotox3ographical Photo- graphs at the MAGPI1. - The scientific members of the staff* of theTs11I1GAiK: held the following lectures: B. A.~ Larin - "The Possibilities of Uving the Light-Range- Finder in Compiling Gee-desic Construe 'tions". V. Ya. !!ikhay- lov "On the Improvement of the Photof-;raphic !',,Uality of !~hotographsll.. P. I. Durneva -"Uew Ceodesia Instruments for the Freparatior.of the Basisfor Topo&aphic Photographs". W. So Uspenskiy - "Some Results of the Stcbility Investi,-a- tion.of Traverse Stations and Monuments in the Area of the U,7~;Rll. 14. Do Konshin - "On Uning the Elements of aternal Orientation in the Photogra-mmetric Evaluation of Aerial Photographs, and on the Increase of the Accuracy in-Stereo- scopiiz Measurements". G. D. Krasheninnikov - 100n the Stereo- graph by Drobyshev". - The membern of the 'Staff of the do- partm-on.ts of -the GUGRIhold.- the following lecturea: Go 3. Dlyakov - "On the Stago of Technical Stuition at Aerial :Surveying- Enterprises", V, No Shishkin The Work -of Ha Card 2/5 tionalizing and Introducing the New Technique to the Topo-  Chxonicle SOV/6-58-6-16/21 graphic-Peodesic Production of the GUGK, in 1957". A. P. -Shchoglov.- '!Analysis of the geasuring Accuracy in the Tri- anguLation of 2nd and,3rd order in the Years 1956-1957". B. VI. Troitakiy -Varking Control Points for the Geodesic Preparation.of Photographe". I. V. Krylov - "Analytical Method for the Determination of Position- and Altitude Traverse Stations". Based. on the lectures it could be found that during the last years, the topographic photographs ofthe scale 1-25 000 and 1;10 000 have undergone great development. The conferencedecided to invite the representatives of the aerial surveying enterprises of the departments of the Sta~te Geodesic Control as well as of the interested offices to a conference at the end of 1958 and to, investigate the pro- jectXor the plan of development of the geodesic tasks in 1959-1965. 1. Ca:~ tograpby 2.-Acrial photography.- 3. Scientific reports Card 3/3   1~~ ( -, - --,* --~7 7,--4- PW ~ --" " -,I t ~'  MINAM,.~Georgiy:Ale,'~sandxovich;. SHAT"NO, Nina- Ivanovna; DIYAKOV, G.S.,, relconzent; POVAT2*AYF;I- P.L., dots,,, reteenzent; PP.OKDFtYEV,, F. I.',- dots. Xretament; IWIMI'lu , A.A., starehly prepoda-vatel I, S.I. red.; MARIKOVA, L.M., red. izd-va; ROMOVA, teikbn,- re. [Safety engiriaering in topograpbic and-geodotic work)Tekbnika bezopabnosti: na Uipo&mfo--goodczichcsklkh rabotakh., Vackva, Gaodezizdat'%1962i '226 (MIRA 15:9) ying-o-Safety meamros)    lam tFlIr--,"t.-.I-i"p~W,95Lk2.11firtzm-?-AVMPR.~W.? W-ONNIVT MI;W"II--qpVwMr43; YUROV, V. Strengthen the technical and economic foundation of the commercial and financial plans of trade organizations. Sov.torg. no.1:49-50 (MIRA 10:12) 1.11achallnik pli3novo-okonomichookogo otdela Irkutskogo gorpromtorga. (Irlpitsk Province-Retail trade)  gi.Irkutsk) Evez7 district must have a well-grounded.plan for commodity turn- over. Sov. torg. 35 no.-3:32_34 Mr '62. (MIRA 15:3) (Irkutsk Province--lurnover (Business))   CHIMOV9 S.; RABINOVICH9 B.; NURMUKM2EWVy M. (G. Petropavlovsk); Yegorovp V.; STEPATOV,, X.; SIBILEV9 P.; YUPOVI, V. Response to the survey of letters on "Hcvr a warehouse should distribute goods among stores"; (No. 5P 1960)* Sove torg* 33 no. 9:3(.-3:j S1160. (MIRA 24:2) 1. ObshchestvennyyAnspektor gortorgat glibaaavyurt# Dagestan- akayd A55R (J'" Chumalcov), 2, Zameotitell direktora magazina, No.8 plodaovo9b,chtorga# Riga (for 11abinovich), 3. Zamaotitoll nachallnika Planavo-ekonomicheskogo upravleniya KiaAsteratva torgovli RSFSR (for Yegorov). 4. Ifachallnik Planovo- finansovogo otd.ela Glavnogo upravieniya torgovli gorispolkoma, Moskva (for Stepanov), 5. Nachaltnik Planovogo otdola gorpromtorgag Kxasnodar (for Sibilev). 6. Nachallnik Planovo-ekonomicheskogo otdela gorpromtorgat Irkutsk (for Yurov). (Wholesale trade)     YUROV, V.S. Drew tachaic in form-tion of Filatov's round redicle) FOT7i Pz In- taip v tekhnike forairovaniia kruglogo stablia. Xhirurgia, Koakva 35-40 Nr 150. (Cm 19. n 0. J~ Df the Hospit&l Surgical Clinic (Haixd Prof. G.S. Toprover) of t1mg Stalingrad Kedical Institute.  YIROV, V, S.; OLEZER, I. L.; BALPMINA, A. I.; LYAIMMAN, V. T,. Surgeons Professor G. S. Toprover. Mdrijrgiia., No. 3,, 1952.  TUROV. V.S. Artarlograptq.of Filatov's circular fUp_ formed on single staim. Rhirurglia, Koskva no.ll-.44-49 Mov 1953. (GIML 25:5) 1, Docent. 2. Of the Hospital.,Surgipal GliaAa (Head Prof. G. S. Toprover), Stalingrad Xedical Instituteo  yInOll, of U'l 9 frau,--h.. tntV R~-,a-.. 262 dra P ormal In.-)y f [7.1 -t !,.a Lmerl pwill-vu.  GAIAKHOVO V.I.; YUROV, V.V. Electrophysiological study on the e=luoicm of the afferent impuloation In inteistins nerves by dicaine. Uch. rAps Orl*T# goo, pelle inat, 18:131-136 163. (HIRA 17:5)  YUROV, V.yo. n vaccinated with BOG. Irminological ftat'llr'30 Ot chil4re (HIR& 12:8) iZzmay IMg 32:?A4-221 '57. I., Kafedra epidemiologli LeningadBkogo sanitamc-gigiYonichs- g3j:ogo moditsinskogo inotituta (zav.kafedroy - prof.V.A.Bashanin). (ECG VACCIN&TION child.  7 14(5) FnSS I BOOK EKI'LOITATION SOVI/2820 Vseeoy-uzW nauchno-issledovatel'skiy institut geofizicheskikh metodov razvedk-i Razvedochnaya.i promyslovaya, geofizika, vyp. 26 (Exploration and Industrial Geophysics, Nr 26) Moseow, Gostoptekhizdat, 1958. 87 P- (Series: Obmen proizvodsU,ennym opytor4) 4,000 copies printed. Ed.: M.K. Polshkov; Exec.,Ed.: Ye*G. Fershina; Tech. FA.- A.S. Folosina. PURPOSE: This booklet is intended for exploration geophysicists and geologists. COVE%WE: This collection of articles Includes discussions of improvements in seismic e2q1oration techniques and interpretations of data obtained by the refracted and reflected wres method of seismic exploration. Individuall articles discuss: the construction of gravimetric maps, improvements in industrial borehole equipment, the standaxdizatioa of radioactive electro- logging equipment, and methods for computing labor productivity in geophysical operations. A nomogram to facilitate the interpretttimof data and conditions when using, gdmm logging of boreholes is described. References accompany each article. Card 1/3  Exploration and Industrial Geophysics Cont, SOV/2820 TABLE OF CONTENTS: Shneyerson, M.B. Seismic Electrologging With Rerracted,~Waves 3 Gurevich, B.N.., and N.V. Umperovich. Simplification of obse.-~vati6na in the Refiected, Wave Exploration Method'Used in the'..West.81berion,~Plains 15 Yurov, Yu.G.,,and S.P. Yartanov. Yarine Seismic Exploration 21 Urupov, A.K., and Ye.M. Cheremaykh. Seismic Soundings in Determining the Velocities of Elastic Waves 25 Tall-Virs)cly, B.B. Method of Plotting Refracting Horizons in the Presence of a Mean VeloGity Gradient of Arbitrary Direction 34 Saihina, H*B* An Zxample of a Rational Seleation of an Isoanomaly Cross-Section.for Gravimetxic Maps 40- Shvank, O.A. Accuracy 9f an Approximative Evaluation of Elevation Differences Based on a Foxmula of the Gravity'.. Effect of an Infinite Bed 44 Card 2/3  Exploration and Industrial Geophysics (Cont.) SOV/2820 Zaporozhets, V.M.x and M. Sulin. Differential Spectra of Radiation From Cylindrical Radiators 49 Sulin, V.V. Standerdizatioa of Equirmont for Radioactive Logging 54 Zelltsman, P.A.. Newly Designed Parts for Borehole Equipment 70 Buryakovskiy, L.A. Nomogram for Determining the Specific Resistivity of Formation Water 74 Tishchenko, B.Ye. On the Problem of Developing Methods for Computing Labor Productivity in Geophysical Operations 77 AVAILABLE: Library of Congress C6xd 3/3 12-31-59   YUROV, Yu.GO CT-,lstal structure of tl,.e Caucasus and isostasyo Sov. VOL 6 no.9t113-118 3 163. (MnA 17-10)   Erginecrin- inct. Y10,07.9 YU. ya. Docentl Carid. Tech. Sci. LeninCrad v~,lectric (Lordn) .1sot-rtation," Qlljmchll~~r, p-j., W' onn 0 VW ,j v.". Romanowilrdy -t9~1 Al; Yel, an V . , SO: Eleltrichestvo, 3, 19-47.   11410gi-4-41 ' T*0ltl-- UPWITUM o a a 0 0 (1 a * 0 a 0 0 a a a 6 0 0 6 0 , *,$,'I I oil# Pt A X - ~ a A6 a A A n It v 0 it a It IF 0 1 A W 1 0 it ' F I- - - A - 1 m a CC (t ~ i Ot So IW 1 0 (Iww. 47, .00 04 o A by "Umt bow w o CWTM cww 69 Of 0 00 J'u cim COVC000- Ao 44 a ..j a acum'UP44CAL LiffeAlwe CLAIUVOCATICIi CZ'- !t' At ooooo';;q; t O* 0110*9*0*4 1010 0 v All 0 6 0 0 0 s 0 T *toov** 00*0004 oo :0 0 of e ** 0:06 too 0 04 0 0 Co, 0 qrl 0 i oi  "U. Ya. lerd-ri;:rad Electri al Zngineerir-g Inst. iin ulljanov (T-el-tin) y 'In. Oil ic Direct-~,ieadirg I-Lstrament, for 7easurff~- the Mncl-,'FY of Cormhust,,lon 'in an 'rc,TT SO:Elek'(,-.--ici',--stvof 170 101 1949  Circuits FD-299J 'Card --- 1 Pub 90 -7/12 Author : Yurov, Yu. Ya. Title : Equivalent circuits for multiple-grid tubes reriodical : Radiotekhnika, 10, 50-58., Var 1955 Abstract : An equivalent linear circuit of a multi-grid vacuum tube,. fully accounting for the plate and grid currents, is discussed in this article. The appli- cation of equivalent circuits to various problems are worked out on the following specific examples: determination of the stability conditions of mixer tubes and excitation of the transitron oscillatorsL also , on the ex- ample of phantastron performance during the slow process of capacitor charg- ing,, and the fast process of tripping. One USSR reference. Diagram. institution.. Submitted 6 jan 1953  ,mid AUTHOR Ytrrov, Yu. Ya. "A New Microwave Band Balance Mxer , A-U Sci Conf,dedicated to "Radio Day," Moscow 20-25 May 1957. PERIODICAL:. Radiotekhnika i Elektronika, Vol. 2) No. 9, pp. 1221-1224, 1957, (USSSR)  IMOTO'Tu. us converter in the centimeter UmA. Ur. vys. uchob. X&V radiatokh. no,* I w.82-W Jv,-F 158-0 (Dim 11M 1; Rokomandovanakafedroy tooratichaskikh oanov radlotekbulki Lonla- gradskzgo slaktrotekhnIchaiskago Institimts Im, rl,* IJ11yanm (ilanina)o (Kierowavas)  YUROV, TU prof., daktor tekhnnauk ~-Ta- Rectromagast1c waves In the space between paraUs! surfaces, which Is partlaII7 filled vith a ferrite. Zzv- LZTr no.38:99-124 Oro WUM 13:8) (Microwave*) (Wave Culdes) - -E RT  20380 S/058/61/OW/003/024/C-27 3 00 (a A0011AOOI Translation from; Referativnyk zhurnal, Fizika, 1961, No. 3, p. 425, 3Zh437 AUTHORS: ju ~ov, Y~u.Ya., Rogozin., V. V. M TITLE: 1heoretical Determination of Parameters of a Coaxial-Waveguide Transition PERIODICAL: "Izv. Leningr. elektrotekhn. in-te 1959, No. 39, pp. 3-19 TEXT: The authors consider a coailal-wave guide transition in which the internal lead of the coaxial line serves as exciting clement of the waveguide; its end either is free or closed to thebroad wall-,of the waveguide. The method of calculating such a coaxial-waveguide transition is presented, and relations are derived which make it possible to determine,its parameters and to analyze its design from the viewpoint of band width. The calculation is conducted or. the following assumptions: 1. The characteristic 1inpectance'of the rod is assumed to be equal to that of a thin antenna in tree space; .2, Fields on the rod surface are assumed.to be equai to fields which'w'ould, exidt'oh, the rod &icis, if the rod --were absent. With these presumptions,!*ourrent distributlon,overthe rod was found, and the problem of waveguide exb1tation b~y_ the7.0rod was so.,.ved. Simple Card 1/2  120380 4/058/61A00/003/024/02511 Aooi/Ao6i Theoretical Determinatian of Parameters of a Coaxi~l-Waveguide.Transition formulae were obtained to determine amplitude of wAves excited in the waveguide, as well as input conductivities both from the side of the coaxial line and the side of the waveguide. The results of an expeiimental checking of the relations derived are presented. The results of theoretical calculations agree s-atisfac- torily with experiments in case of-non-resonance-transition; in the case of resonance transition, the effect of the waveguide walls on the rod characteristic impedance should be taken into account. Examples of calculating-coaxial-waveguide transitions are presented. 3 j-Bryantsev - - ori 0'r Translator s note. ---This is-the full 6ahalati' ot:_ iginal Russiem abstract. Card 2122  OV S/058/4~05/006~-U_30/0 4o j d3l) A005/AG01 Translation from-. 1, Fizika, 196o, No. 6, p. 299, 14944 AUTHOR: Yurov, Yu.Ya. -TITLE,..- Waves Between Parallel Planq.~, When the Space Be- twe-en ThIem-:fi3 Partially- filled With Ferriteg-~O__ PERIODICAL: Izv.-Leningr. elektrotekhn. in_~a, 1959, No.. 38,.pp. 99-124 TMET: As a result of solving an eleotrody~amiq boundary.-value problem, the propagation~constants are deteimined in a waveguide of infinite height, i.e., in the space between two parallel metallic planes, which is filled with ferrite magnetized perpendicularly to the planes. Moreover, the reflection and transfer of waves in considered through a.sudder. discontinuity - the joint of two wave- guides of different width, the first of which is filled withan isotropic dielec- tric and the second with magnetized ferrite. The cases are considered, when the wave coming from the first waveguilde is a wave-of electric or magnetic type. The infinite swris, appearing in the expression obtained for the conductance of the incident wave, are determined approximately from comparing the quasistatic and variational solutions for the capacitive and inductive diaphragms in the waveguile. Card 1/~  5/058/6S%/006/030/040 A0051AOO'1 Electromagnetic Waves Between Parallel Planes, When the Space Between Them ie Partially Filled With Ferrite For the special case, when the ground type wave can not propagate, an equivalent circuit is obtained, from which It follows that the. electric and magnetic waves will transform into each other when reflected from the magnetized ferrite. This transformation is utilized in the ferrite-reflection transformer. The latter represents a short-circuited section of a waveguide with ferrite bar. Two rectangular waveguides are connected with this section through slots. The com- munication between them arises when the ferrite is magnetized. A.G. Gurevich Translator's note. This is the full translation of the original Russian abstract. Card 2/2   86796 S/142/60/000/003/011/017 7600 E192/E482 AUTHORS: Vinokurov, V.I. and Ustihov, V-B- TITLE: An Electronic Function Converter PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radiotekhnika, 1960, Noo'3, PP-376-365 TEXTs The problem of transforming a function can be formulated as follows. For a given electrical signal and a known .functional relationship Cx it is necessary to produce an electrical signal corresponding to the values a =-fQ ). The problem of transforming the given polar coordinates r, y into rectangular coordinates x and y is often of great importance. Such a transformation is described by x r-cos 21T UG Uom (2) U0 Card 1/7 y r,-sin -21T UOM  3 _J~ 86796 S/142/60/006/003/011/017 E192/&482 An Electronic Function Converter where----w--=--2n~Uo/uom;---her-e---Uo.-ia---a.--voltage--and-- Uis om valu a. -of - the-:.v-oltage . corre---sponding to (p __-ThC -Coordinate r is given by the voltage amplitudO Um--which is a sinusoidal function of.time. In order to obtain the-volt-age proportionate to the coordinate y of Eq.(2), It is:possible to employ the circuit shown in Fig.1, where the voltage at the anode changes in accordance with Ul(t) K + Umasin Wt where E is a constant voltage component, while UM is the amplitude of the variable component. The load of the tube in Fig.1 is in the form of an RC network connected in the cathode-. The-tube--is normally closed-by means-of a biasing voltage applied between the grid and the cathode. At the instant t a positive pulse having a duration vu is applied to,the grid and the tube beconies conducting during the presence of the pulse-. 'Now, if the Card 2/7  86796 -s/.tti2/60/000/003/011/017 E192/9482 An Electronic Function Converter time constanV-for charging the condenser~-C- is--much shorter than Tut C will be charged,to the voltage almost equal to the anode, potential. If RC;E> T (T is the period of the anode voltage) and the positive pulse at the grid is repeated periodically, the changes-Ansignif icantly--dtring-- the-- discharge periocU. The average voltage across C is therefore given by Uc(tj) = y(E + U M-sin wtl) (3) where y, Is a constant factor taking into account the influence of RC and T . In order to obtain the voltage proportional to the other coordinate (x), a circuit,similar to that of Fig.1, is used but its anode voltage should be shifted in a phase by 90% The positive pulses at the grid of this circuit should be applied Instants as tho-s-e-i-na system is 'to operate correctly, it Is necessary that the instant of the appearance of the positive pulse should be determined by the coordinate V, that is by the voltage UO. Consequently the Card 3/7  8.6.796 S/142/60/000/003/011/017 E192/E482 An Electronic Function Converter following condit-ions should be met t UO 'r Uom In practice,- this condition can be realised by means of the circuit shown In F1g.3 where the voltage UBX is in the form of a sawtooch waveform having the repetition period equal to a multiple of T~ The amplitude of the sawtooth voltage should be equal to Uom or a multiple of it. As long as the sawtooth voltage is lower than Uo, the tube in Fig.3 is open and no current flows through the rectifier. However, at the instant when the.sawtooth voltage becomes equal to U. the tube becomes closed, A positive pulse is therefore obtained at the anode of the tube. This is differentiated and the resulting short pulse is applied to the grid of the tube in the circuit of Fig.l. Such pulses thus appear at the instant tl. Fig.4 shows a practi-cal circuit which can be used for the purpose of coordii.,iate Card 4/7  86796. 5/142/60/000/003/011/017 9.192/E482 An Electronic Function Converter transformation. Though the above case considers the transformation defined by Eq.(2), it can have very general application, since various non-linear functions which are periodical can be approximated by a Fourier series consisting of a number of harmonics, A block diagram of a device permitting the transformation of complex non-linear functions is given in Fig,5. Here the unit providing the constant component can be built in the form of an accurate divider of a highly stable voltage. The imits for various harmonics are the form of the circuit shown in Fig.4. Each harmonic unit will produce a sinusoidal and co-sinusoidal voltage compo nent, The generator of the afnusoidal oscillations for all the.units can be the same, if a suitable number of frequency multipliers is employed. A converter.eircuit.of the type shown in Fig.4, was investigated experimentally. The circuit operated in the frequency of 15 kc/s and the duration of the was 0,6 11 see, The system was supplied from a s tOi-ii-i 211_6cr -flare e 7-of-~ 200,-V- Curve s- illustrating -the- transformation device are- show~-irr- F gi; -7- Card 5/7' -  86796 S/142/60/000/003/011/011' EiWz482 An Electronic Function Converter The circuit of Fig.4 can be employed to perform various mathematical operations such as division, multiplicationg root extraction, squaring and so on. The use of the circuit in determining the logarithm of a number is analysed in some detail. It is shown that in this case it is necessary to apply an exponentially rising voltage instead of a sawtooth voltage to the comparison circuit of Fig-3. The circuit can also be used for determining the number whose natural logarithm Ls known. Thw circuit has the following sources of errors3 (1) Instabillty of the voltage E; (2) Instability of the instant tl, whIch may be due to the instability of the sawtooth voltage or the instability of the comparison circuit; (3) dependence of the coefficient y of Eq.(3) on the internal resistance of the tube in the circuit of Fig.1 and (4) the instability of the voltage amplitude Um. These errors are analysed in some detail and it is shown that the cathode follower in the converter circuit car. be stabilized by using the system shown in Fig.7. There are 7 figures and 3 Soviet references. Card 6/7  86796. 5/1-42/60/000/003/011/017 E192./E482 An Electronic Function Converter ASSOCIATION: Kafedra teoretichesklkh osnov radlotekhnikl Leningradakogo elektrotekhnicheskogo instituta im. V I.Ullyanova (Lenina) (;e!partment of the Radio Engineering Theory of Leningrad Electrotechnical Institute imefti V.I.Ullyanov.(Lenin) SUBMITTED; January-25, ig6o Card 7/7  24223 s/142/6-1/004/001/002/008 elf E033/E135 AUTHOR: Yurov, Yu.Ya. TITLE; Coupling of normal waves in waveguides with ferrites PERIODICALt Izvestiya vysshikh uchebnykh zavadeniy, Raidiotellchnika, 1.961, V0~1141 No.1, pp, 20-36 TEXT; Separation of the variables in the Maxwell equations for waveguide containing ferrite requires that th e directions of the coordinate axes be along the main axes of.-t-he ferrite permea- bility tensor and that the boundaries of-the waveguide and of the ferrite coincide with the coordinate surfaces. This requirement limits the method to a narrow class of problems. The difficulty can be avoided by considering the ferrite permeability in the form of vector products independent of the coordinate system. To simplify the physical interpretation of the solutions, the field is resolved into a series of normal waves for a homogeneously-filled waveguide and their longitudinal components. Electromagnetic waves in waveguides of arbitrary cross-section, containing ferrite of arbitrary cross-section, magnetized in an arbitrary direction in the transverse plane, are represented as the sum of the empty waveguide waves And their longitudinal components. -Expressions Card 1/4  s/i42/61/oo4/ooi/oo2/oo8 Coupling of normal waves in ...... E033/El35 are obtained for the propagation constants and for the Amplitudes of the waves. A now principle of transformation of an axially-symmetrical wave_ int -o.-a linearly-polarized wave by using ferrite is advanced and realized --- experimentally.- The theory not only enables practical apparatus, at the present una,menable--to calculation, to be analyzed,.but also suggests,new ferrite applications based on the mutual coupling of normal waves by the magnetized ferrite.- One such application, a travelling wave switch, is described. The switch consists of circular waveguide and a transversely magnetized ferrite rod at its centre. At one end of the waveguide is a slot and the other end is terminated by a coaxial line When the ferrite is magnetized, the wave passes without refleciion from the slot into the coaxial line, but when themagnetic fteld is removed a decoupiing of about 35 dB is obtained, as observect in the experimental, centimetric-wavelength model, The switch had the dimensions: diameter 9 mm, length 12 mm., and waa filled with silicon-oil. The average power passed was 200 watts at 100 kw per pulse. Control was obtained by an electromagnet having 250 amp-turns. With little modification, the theory can be applied to travelling wave parametric amplifiers. Card 2/4  411223 s/142/61/004/001/002/008 Coupling of normal waves in..... E033/E135 --T-he-mo-4:(:~ied lj~xwell equations are: 4 rot H - j W e E + rot, H (3) where 9 is the magnet ic field vector; j w is the angular frequency; is the electric field vector j is the electric flux of polarization; and jig is the permeability of homogeneous-filling. Eqs.(3) can be considered as comprising side currents, and using Lorentz' lemma in the form proposed by L.A. Vaynshteyn (Ref.71 "Electromagnetic waves", Izd-vo Sovetskoye radio, 1957) a solution can be obtained in the form of the sum of the normal waves and their longitudinal components, excited by the side currents in the waveguide with homogeneous filling. The normal waves of the transverse-magnetic and transverse-electric types, expressed for cylindrical waveguides, regular along the z axis, by the vector potentials, in the- direction of the axis of the waveguide, are given in Appendix I as a system of vector functions which gives a-physical picture of the field. In Appendix 2 are obtained formulae expressing the field (9 and it) in a waveguide with ferrite as the sum of the normal Card 3/4  242 Coupling of no rmal waves in..... S/142/V/004/001/002/008 E033/El35 waves. The dependence of the waves re-radiated by the ferrite on the dimensions of the waveguide and 6f the ferrite is investigated. There are 12 references: 9 Soviet-bloc, I German and 2 English. The English language references read as followst Ref-5: H. Seidel, R.C. Fletcher. Gyromagnetic Modes in Waveguide Partially Loaded with Ferrite. BSTJ, 1959, li,~ No.6, 1427. Ref.6t. R.A. Waldron. Electromagnetic Wave Propagation in Cylindrical. lifaveguides Containing Gyromagnetic Media. J. Brit. IRE, 1958, 18, 597. ASSOCIATION: Kafedira teoreticheskikh osnov radiotekhniki: Leningradskogo elektrotekhnicheskogo instituta im. V.I. Ullyanova (Lenina) (Department of Theoretical Principles of Radio- Engineering of the Leningrad Electro-Technical Institute imeni V.I.- Ullyanov (Lenin) SUBMITTED: June 2, 1960 Card 4/4  . .. ........ ACCEMCK HR:, MUTM AU WOR: YVMV&. yv. -Viz* (D=toL- of twftdca adenewg. PLvfe=w)r, tAvxwJ=t IV* Yee (ASAIIiIWO-1- with cova -plate 3=9 fw ab%gaw -ed mxdng SOURCE: LenbqWW. Md*vtddaLdw9Tdy butitut. Tw. 0 na. 471 1962l W-42 TOM TAGS: metal p1late Iwas ceUuIar Iews ctrcuIar polarLtatictt covered fted thin ri%e vraveVjI&9 =ssed rWp sin~eguidaat zaiing, slat R;;hMty pattel:n 9PV IA)be ASMAM A-i~etaa-p~laft microwan lew desigm ptoposed by E* K. Proatcr MGM* !RE on Antemm and ).%vMmtLbn, IP49 M3. My 19581 is modiffWi to pemit Circular, polaz4zatiai. t,& pvindpal, lobe of the dirreativity of the A the bean o= be somied Aftv=30~ by die- is of the cvlw of 610 w Aacing the dipole over the fowl plane of ft Im. To match VE ad== to of the antam is a rectmodar wmVAde ete impedance of free qmcel, ezzh eel- loaded with crossed alatted thin AdWs. Tha lens itself Me a qhwical extexmI sunface end. an intenva surface in the farm af an eUlpiad of revolutim, cam 212   5/142i62/005/006/002/011 9140/Z43.5 AUTHORSs Vinokurov. V.I.', Makkavayevt V.I TITLE: Design of 'a correlator based orf~~a linear system with variable parameters PERIODICAL: Izvestiya vysshikh uchobnykh zavedeniy. Radiotakhnika'. V.5 no.6, 1962, 672-681 TEM A parametric element has been used~ax the multiplier on~ which.a correlator has been based. The element in applied in the commonly used balanced b~ridge modulator. There are 4 figures and 1 table ASSOCIATION: Kafedra teoretichoskikh oanov,radiotakhnilci 'heskogo instituta' Leningradakogo elektrotekhnic im. V.I.Ullyanova (Lqnina) (Department of Theoretical Fundamentals of Radioengineerl,ng, Leningrad Electrical Engineering Institute imeni V.1.U1,1yanov (Lenin) SUBMITTED: April 13, 1962 Card 1/1  .5 IC, 1'. oj v cu J.  A ~)p 1. 1j V 1 "t 2/ 6 3/ 0 0()/ 0 0 1 A) E192/E382 L F- 'g d A A rot A Th r C i DtOntial lepend~ or', t in, C oil d' u Cr Efl, (2) g-,ves ,)n1 y th portirn of thp .'ield -,-,'hich C k, C!)Y The C-ul-rent ~."l the fileanf;.nt. It is tho~-e- -Cc)-L, to tokt i--t- the field produced by the fio-wir,8; in the wails o,'L a waveguI-de or oth(r. devices and add to Eq. (2). T'fjis field wnuld produce; a current in the cond~-ict--)r w'4~1c~h could ba found by introduc~.Lng an impedaj-.ce par.-t- Oans V ~t:ik in- of'fc--ct theory. 'SfabAtitutlon t"10 "~A~Lrrqr-'t -f 1T-2 field 4  p f tut lon r- t h 0 lit ~Srii.~Jj Ory u X~T en th; - , I . fIr -, - aAt Givla'b e: con4uctb,4 erdni-4 Waver difi or 6 q rfic -u at! I ent t Us e only t-'14 majzt.- to inf'ni'v for r C) 21 61' Ind -'I-S t -I e tfic Sub-intezri b- t -1, c m (?,:, . - ,,,~currant distributioevall- f,f E, "StItt- ci cala:3 Sequ a 1. 1 Oll ~ a r b iv,~. a pr,xir maf _I. 0 r-, ~qj BPI  --- -,- kna u i ~ I z ~- . 11. . ~ . ~-! -ml M-- In M-om  YUROV,- Yu.Ya.p doktor tekhn. nauk, prof. Eddy Ourrents in solid magpetll- cirouits of h_4gh-speed automatic control syste2s, Ix'r. LETI n0a48:196-211 163. OCRA 17M)'  A 1 C; N N' :1 A;14( 4112i,47 S/OIL2/'64__/'OO- /003 /0 -_310 /0 3 5 A'j R Yurov. "u. Ya Prof njacr; F: ncreaali.g radiometer 3enaitlyity by mo~ulatlon of in- T-It $i , 31 ~!t 11 .4 S f U: C E T U a 'I i o t h rz i k 'T no. 3. 19S4 310- 315 G _r Fl. el C" n e- r~ c e r i c' d 1 o i i_e__m odul a_t_i on randcm noise S i;ln 11!~)! fi -e , rin ti mr,lulated radiometei , correlatcr, 1 d ~4' t 10 A S T d " c r e e r s e n a i 1, i y na:t be increased by random-poise no-se moduletion) o1 its input aig- n u t eiuert irsert-i z~ r. of a correlator based on the princi- r E y ~-t E-z wit, ~ &,~i able parameters ( see F ig . 1 of the E B, t the random no~oe and reference noiEe are applied to 7 h hangeover s,;I tch i~ e2cntrollad by the voltagt of 3 1 an r f, a e The ;~ goal" -Prom the i3wilch output and "nat re n g o 10c set-I)Oiue th(i receiver are amr1ified and II I c t h e d e e c t. o r In &dditior to the set-noise, Yolt-  -,.e w "I r~1!1.1:lom noise appear-3 at to r f ra z~ I e r t ropt-, ~ Selected freqvency band is Y ut, e d "o n a d i s t c) r t n c t-i e f f e c t a i g n a 1 . The c,-relstcr r i, T- r 4 1. a 1i- n ar ~;vs~-em l.n wh4iLh ',he conductivity c f the detector ~ t. mo w t ~ I t ~" T, M e-) j I n 'G, 1 F r, a I . Tht effect ivo jignai and t i 3 v s t e m p ea r 4 -~ m r s ~t'rtL~ cory n J'ated bet,. ean themselve, n f5et-n(,!.--3e I s -7? 3- u 1 t s In an incret s e r I' c on s t a n t v e r r L a ~. o r r7 -u t 3-~mt--noid-e is tranal ormed by Lhf-, v s Z n a ra n d om -h i s expansion f n 3 s e - c- t~ ru m n s i t:f at ,,be c-utput according to the frequency s L E 0-, W t' h MCIdl-11-1--tion )f the input 9 ignul The noise Y' or r f-spc.-di nE; to o- e ---y c: -1e w I th noise modi.lation i a I e a s Z7 v r i d I m c d u )- a I c: n This reaulted in a reduction of t h e a d '. 0 21 e c; *u t P u tPhich correE ponds to the signal -to-no Lze ratio. Orig. art. kas: 3 figures J 9 A '11 D F S 3112 EN C L r) I 7 'T Q ?I - j 002 OTHER 00i  AC U-3 S I C N A Fl 4 2 8 h 7 F i f ed block diRgram of amplifier i selee~ive t-f am- quan- ti -,.e,.i nciie OOUI-Ce Und Indi- fill I ENCLwUlt-P  L 39580-66 GD ACC NRv Ap6ooosI7 SOURCE CODE: UR/0142165/008/005/0511/05zz AUTHOR., Yurovs Yu. YR. ORG: none TITLE: Transformation of transverse oscillations of an electron beam by short magnetic lenses SOURCE: IVUZ. Radiotekhnika. v. 8. no-. 5. 1965. 511-522 TOPIC TAGS: electron beam, electron beam tube ABSTRACT: Vector-product eigen-vectors are introduced which split the, equations of the motion of electrons in a magnetic field independently of the time and spatial c9nditions of the problem; the transformation of r-f waves by axisymmetrical magnetic lenses is represented in a simple mathematical form. Thus, a linearized equation of motion: (v,. V) v=Wa (a. ej -(ju. r1 + (us. sl + (a.,rij, (where v. is the undisturbed electron velocity before the lens, V40 is the velocity increment duq to the disturbance, I; is the electron displacement, and is ~'the cyclotron- resonance frequency) can be split into these three scalar equations., Card 1/2 UDC: SS8.691  L 39rM.4 -ACC.NRj AP6000517 4) --I x_'E; It is proven that the levorotatory and VO + "%rg + T W-4 _F_ 2 dextrorotatory modes do not exchange thei places; the transformation problem is veW W -2 4U, as 2 reduced to solving a system of integral ft, dot 4% o equations with the final results in a closed P + + IX + Y) "WI form. For short lenses, a matrix of transformation of eigen-modes of the electron beam is introduced; the matrix clearly illustrates the process even on reversal of the permanent magnetic field. It is demonstrated that, upon a symmetrical magnetic-field reversal, cyclotron waves turn into synchronous and vice versa. The new formulas are offered for use in designing electron-beaxii tubes with transverse oscillations of electrons. Orig. azt. has: 68 formulas. SUB CODE: 097-SUBM DATE; I ZDec64.. -74 &V Ki,  VIMMtMA, A.I.-S SKOROMODOV, M.A.4 Prinimali. uchastlye: AIMSANDROV, G.P.; BABUY, F.Ta.; BAYBARM~~,P.P.; TAYNSHTM. . TS.Z.; GUOV. L.T.;, ZHOTIN. R.P.: KONTSMAYA. Ye.M.fLEVINA. M.N.; NOTLYANSUTA. 14.4.1 PC-' TOTSKIY, L.9,; TRUNTSO. D.S.; YMOV. N.G.-, CHIKHAOST. I.A.;JUROT, T -MPKOVA, N,Urad.; YEGOROVA, 1.~,-takhn,rsd. [Light over the gate) Svet nad zastavoi. Koskovskli rabochii, 1959. 422 p. (MIRA 12:4) (Moscow-metollurgical Plants)  IEBEDIEV, V.I.; WGIMSEV, YU.V-; PUTCUDYA V*.Ye.; PRUDNIKOV,. le.D.; SHAPKINA, Materials an the study of the mineralogy of metamorphic rocks in the northwestern part of the Lake Ladoga region. Mln. i aeokhtm. no.1:131-156 16.1, (MIW. 18:9)  -am mm--sanw ; -I - , NT Yurova, I.L., Candidate of Philosophical TITLE. Prayers Will not Help to Raise Crops (Mol-Ltvami urozhaya ne vyrabtish') PLRUODICALt Nauka i Zhiznl,, Nr 4, Pp 60-65 (TJSSR) ABSTRACT-. This article states that science, not religion, is the key to good harvests. There are 5 figures. AVAILABLE: Library of Congress Card 1/1 1. Agriculture  OPARIT A.I., akademik; &1'UDITSKIY, A.R., prof.; WAMADV, N.P.7 prof.; KOVALISK37, V.V.; YUROVA, I.L , dots.; PLATONOV,G.V., .Prof.;KAMOV, V.M.; FURMAY, W. -YIe dots.; I-SEr;rEM, 11.V,, prof.; 'YXKI"%OV, V.P., kand. biol, nauk,*. ZHUKOV-VEiMiZ11NIKOV, N.N.; BOWDARRIKO, P.P., prof.; 1,UYSKIY, I.D., prof.; TRIBULEV, G.P.,:dots.; TSAREG.ORODTS9V, G.Lt dots.; DOEROKHVALOV, V.P... kLi1A. biole nauk; YAZDOVSKIT, V.I.., prof.; VIKTOROVA, V... red.; CHMI'ZWKH, I., m1ad. red.; 11LANOVA, L.9 takhn.red. [Studies on the dialectic of living nature) Ocherk dia- lektiki zhivoi prirody. Moskvap Sotsekgizq 1963. 527 p. (MIRA 16:12) 1. Chlen-korrenpondent Vsesoyuznoy akndomii sel'skokho- zvaystvermVkh nauk imeni V.I.Lenina (for Kovallskiy). 2. Deystvitellnyy chlen A1-1N SSSR (for Zhukov-Verezhnikov). (Biology,-Philosopby)  IC, S,-, Water Biol Sol (dide) "AnPacto Of reflnx rMatlor#1 in YMCJA th;~, develapmant of exporimontal Infla=tion In the o"ector portion of tho roflox are (tho heart)". LenIu;p.,adp 1958. 20 pp (Min Uealth RST%,, LenlngrR5. Sanitary- Hygiene 14o6 Inat)) 200 mples (Ell No 5, 1959j, 148)  L 4~~-_-~ SWIG( j) /F WW (',r) - ; FT G/ AFV D Gj MID-1 A K) C DE) J%W 8310N IRf A'17,5010!%~-18 UP,/ 3147/64/C03/10W/002-3/009 i AT711110M, :Iramerkitakiy, t. M.1 Savich~ Ao A.J Ywrova. K. 7-17Mi Thn at~ion of vixiois ivtrarenously 'Injected gances on the orgaaism ';OCT -~-: AN S.SSR. List' -;vt avolyutsioanoy f unks gan zma )_Ri~. F + ii or i v ius] o-r-.,yakh i zm-anermoy gaznov oy, ared) , v, 3, TIOPT,' TAG'i.- intravenous i~~ss iniv.-ction, nemeniholism, decou%reemion sickrke~pj_ e ;a u th --) r s s ~ ue, t: _~s cl_ intravenou,4y injected ox)ge!~, ca-rbo4 dioxiJi-, and hell urn r) T i :51"; -;its qnd 18 bblit rai 3.- ifteen chrcnic n lu(,f j i~~q)erfmmfs took place v.-~-I-z uscd to record respiratim in ;.q C-e Je-nor-a;~ A canile w,-ia introduci!d v C Irlr the inil._-',~o-i o~, gases, and the rate at v,hich .1e ve 7) atc,,irately reg-ulated. In a number an."'if !~ tr,~a`-.; * -cr or belium-oxygen -;a ;:~;ire ox- yg ;&e was 11- ~~uch ca-~es trw..heototnies were cln- dt'Ll~::_; aln", e~~Piraticmi trl)c, place b-s -nepme of a -quiall valve which waj; con-  4 2 19 5 - -'..5 AT-5010f95 ,nec-.,.ed to ,h-, tr ;i cbeotGrny t1ibe, in 14 eyperiments a comparative anal,psis of the rea-r-t on of anim als t ) the intravenouc; inJection of gasses Was con- ;duc.ed on anirnals with inta A nervovs .4yat-ems and on animals with resected: lvagu,s ner,,,es, In all, ther4: were 15 carbMi dioxide, 40 oxygen, 90 air, and, 126 heliurn-axygen-rnixmre injections, T4e rate lat which gasses were in- jected depended upon t-ie atjective oll the experimen. In chrortic experi-I Tnelits, were injecte( into the auricular vein of rabbits and their, condition fmd bshav-ior wer i then obse.7ved 1 P T i -e e,.aperirriens -,how -?d that chanj~es 3n respiration and circulation Trod!.i%_:e,.~ b,,~ infravenoiis in.iection of vaxious gz&ses were very close to changes, lin t~,ese rivnictic;ns r_,bqr-rvec during aciite decompression disruptions. S _,te-,n and luna vasculaturc :indica."ed cnat aeroerntelisin of the venous Tiys a d on) i nqy:~ r c! e 'n decomp-ession d11srupt;.(,rs. It was also found that lif- t!ass,!1~1, inlected tntr lvenously; differed in their physiological ef rect.' ,he mo-zit .---utc physialogi,ial effect occurred when nitrogen was injectad. desCt~ln,Jli-ig order, ~elliii-n, oxyge~l, and ~~arbon di-oxide had leas effict 'he Thi,; ca;i be Explained by the fact that the diffuaion (,f th~-- ga~s_ses aAminie'.. ered dif 'ered and that oxygen and carbon dioxide were  L 421--3c.-'"r, MCFA.310N ZiOR1 AT-5010598 "A-.reacy .-hemicallly asso2iated wit'i the organism. The consequence g of Rrtificia' aproernbolism 'in its most ~zevere gtage depend upon the dVfueion- cc;--relat-junship whirl-h ot:curs in the lungs between aeroernbollams a-)d rga-~eou~; rnixt-ures wnich accuinulate in 2'lveolar areas. In the elimination a I aries fie t![ aeroemholi8mq, the lififufilon of gwskz from-lung c p 11 in t ELIvea~ii play '-, lcadi'lg rolt"- "-*br--,qe facts Wiotild be --onsildered when ana- "yz;ng JecamPression disruptions or their treatment. The authors c on r-ltided 1"hat aeroernooii;irn can serve sa an experimental model for general dis*'7upt on8. OriZ. art. has figwms, VO R~71' &OV! w4 -~-Cj 1 00 OTHM 1 000 SUB )ODE: PR LS ATD PMS1 3240-F   E ~1 G 2 /E;WG Pb_4/ F 3 A 1 ~ DA 1 D' N13: A -~"5n_ 1-04,01 ~ Aror,ya.;i0.v' V. A,; Yurt'rra' K. S. %ol. aerol,mtolism 'ilrideT c0udi'iG--'B 0' 1 a- and bner dirmia 3C 11 RC-.". ill Lvitit-'It evolyutnio'IDO'4~ Punktaii organlutp- v ue,,ovLyr,kh J,,,nwnnr,_no,., gazovoy aroudy, 1.1,64, 72- 8 aickr~ess, central rv~rvous F,3 f!] '-"c'e 7. Ca hy Pe - t r- i 'n" 'iition was to determi w how temper- A f 0) T A I to the E-ffectS of aeroezm,'tolism 9-4,0 kg. In all, 'IS f-.xp-,, vw--F eDi, ;.1; tcd. In t~e. chronic exp(ri- v. r_, r, ec ~e i _~azr v -ir wi4h 2 ml of air for I-:i n. .1P _i,:,rvations were canductf~d On -ts, 8 se-ved Of 23 rRbW I : :~4ti,eSs F a..; contrci'L~. Jid not un.j.---go any tihtlrnja' rio r to inj ecti-on i_ f a!_c, H N~ ere su!~'ec~C~d' t4; p.1 --liminarv arid 7 were exposed ta pre- in ihi~- '4z:ute the cortro" aramals which M .rg H -V 'M I Its 441 1  "'1011 aR Wate,- ;lrd IlCe Wec'O added between the twO walls 0! 4 (which tooit t ern p ?r vhu e h, ad r e ac, h ed 3 4, 0 - 3 4. 4" C I-jr in, tj'~f, t'ihr-nnir Pxpr ;'ullirals were removed from. the the rabbits lil j -ixnc pn.:41t ori thr(:ug",-'jt the entire experimvnt, had reachf-A 34'C:, the cold "Viat r dt The aim of this regimen WI-q to 1 ev;-1- Heating of rai?'%*ts C-lut I)v them I F -v r) R a ns o' s~,-ver elpcti-Aes 1: air vias r,isiA to ~,Ind rr,iin- -e of th h-ri 0 lemper~ttilr F. rabL-,il, hutch- and, in the chronic xp eri rn e nts. In the -;en the;i w-n- he hutch w) ~i t b ecr an " o d rop, th ey w e - e i r ~7,c t a! *,~~mpejlature was me a- j-, !TIf:D-0 i P e i_nd ~~,errylom-ters from, the begiruning of In , ex r) n  5 ACV,93~"~XCV r1li, A75MO601 h -1d b -m., lieatf-.d and cooled were placed in a fixed posi-tion without anekbe- ~i a. It, th~Li3 ,;rn~,,p Irtertal prve.Buire and reF,,piration vmrerecorded k_vmo- g 'aplhtca-lj~,. C-cJngy of the an.mal;i took place L-i a vat developed by and do:,hle-wrailed mtAal veasel designed along, the c o~qwrl riittrzu; r vvealc%i that whe-, ;sriir. -Is had been cooled or heated exp,~~-tmer-il aerormbclfzs~,n was bicreaged. This in- --:-asf, m to Aerorzybolism, -,v~i-s mor-e pronounced during hypo- erz-r: -; t!L- -i d-i-irmg hyperther The r;iechanisms of resistance to aero- 2.-~bo~.57-r ijirinp hypother)-nia and ~tiypertherrnia a-re e-vidently different in mittire. Rc,3iz,;tam,-.e to aeroentbolism is probably aided (-.Iur;,ng hypefthermia th~- :-,;~m inat-iori of ~ r btib.-bles irom the blood strearn and during ,i, t-;,; a bowerm?, o! 'he Eenqiti-~r,4y of the central nervous eyateul Fef7kex infl-uen,--v~ as~-.ociated -with ga's bubbls-s and hypoxemia, 6 ENCL t 00 SUB OOM PH, iAl W, PIT 012 ONIER - 001 ATD PRMS: 324o.y Ca At  ?b -%]-f D,, C' V, '1,1;~'z [ON UP, ATI~OIGE02 D'P,/314',1/64/003/'OOG/OD79/0086 ALM-i0d: Are e -i 7u -,,g G-r am e n i tk iP . M. I Y u-ro Vb. , Y%S MILE cha-mc-eriatlen of cirmlatory apd respiratory react-ions of dup to de-omijres6inn ar-I aerotmbolism !;C U;F N S, R T n c. f 4 t U t v evo .1taic'nYtoy filiolok-ii. Furvk%sii Q~-ganizmm 7 us- pi 7-me r e nn o y ,az.ovo~ 4:red~, , v 3, !9b 'C: decompression 5ickneis, bends AF~: a j:1 ejr~t i "-e Ot tha T, to Stlidy 11 L-i erespira.or), and IN e S ri. r A! a:I Jer:omoression and artificiiil e)pe a )t,.,l;srn in n, r~r ts, The second objectivP wm to (~Ju-i- L it~ tl ai.ning for vvali effective iii J e C L disruption )r, or, - r F, 9~5 al-, of the organism, to decor,-)pre~;- di t es -.,- s to Inject,on of gasca. ~vxp (a r I - I W j c r rn e fj n th, c, e ri e 0 n on e s d c i n a S P e i 4 oscillog-ao,-, wan ust  5o Of ~o n. -n -;is ---r ed -u I iu Ar -~,x tirine, gac; counte-s re,, ri t4, t ~a t! o, Al," -s- were recorded es5~,O,,~ f o Pj .-)f 4. 5 atrn (C:XV03Ure min" rn r - - of 20-15 InI im the course T,- e J0,;-.1-~ to inje-c! a.i.- -"ntc the experim---iiai oystem for intravi~, cius air 4-nlactiom ao spht?re; 'o graduated buret te; rsducer-, e- inJuct.(.on veln.. A ti d  =0 Mien typical Eiyrnptorns o~ !'mbs), the indices desc:,ibed f E, V'. C m -c o d t~d f r,:- t"he anizmals were then gi --n thera- '8 ~-s- conducted vrith decompression ~,!j ct- z: t v c f unanesth etized dogs Au m-fici, ornl--AiSm were essenticCly sirni- an TI! C; neroernboiisrn tncrease5 the re- inr decomDression. disr-up- 1,~ ,tq r g t,-; intravenous ;11-:eotions bm 10 In o-,icdiflo~)ing the reaction or the L orrarism. to thc Afa,(-t that delt~.,Ioriouw-, f-1 7 1VE.- fiuncf icual abifts de ieloped. --rrp -apidlv :,7 v tfi 14 7 r g  n 7 3 Ji5_3 1000/004/oSi+/i 60 3/08/62 A058/A101 ans~jy, V. B-. B-, Troy yuroi!a L polyakoVi, A, StepanOv, 3. diIPhenyl and AUTIjORS: jroderation length-in length and Neutron diffusion nyl T:[TLE . is Mona 'Opropyl diphe 1962, 61- abstract 4B461 49 1961, 192 - 197) rnal, Fizika, no- Gosatomizdats f jativnyy Zhu f j7,ika If - 14oscOws Sb y Lsured in diplienYl at pER:[0DTCAL Ile ~ "Ne tron'. hermal neutrons was mee Deviation f-"0' Aengt In Of t nyl at t = 200C. re obtained; The. dif ft'sior proPYI diph, 110wing values of L we cm TEXT' Mol 1300C and in MonoisOt2o. The IN I and 3.34 + 0.31 850 a ~i;n of 350, cature did not exceed cm for diphenY tempe: .~7 't 0-04 the transPOrt cro56 seal O-Perating 4.93 t 0.()B.cm and 5- value Of these data 0 14 am, I The Mean Ilated on the basis.Of 4.77 t - 0;,I1 diPheny t was cale' .2 barn - The age of .tall,ne matter thAL 'was also moasured for monoI5OPr,jL0rjr ~ . 35.7 * I in n t . 20oC tu%,ned out to equal _Be sourae (-'a 0 U hydrog duced to and Of neutrons frO-'a a po Measurements were carried and re indium resonance- ' the thOrmal fis ion neutrOns~rris aoed in s -to -.Ilei&t P1 nyl (t 350C) uP e and 90 am. n in solid diph' jn~.-diam ter out in a eyIlivLder 40 am Card 1/2  S/058/62/000/004/034/i 6 0 Neutron diffusion length and... A058/A101. column of a reacl;or, the source of fission neutrons being an enriched uranium target-converter. Control measurements with the Po-Ba source# carried out at di-f- ferent experimerytal geometries and cylinder sizes, showed that the distribution of resonance neutrons in diphenyl surrounded by graphite corresponds to the dis- s I un&,that 1, 2 + 2.5 cm2 and tribution in aninfinite medium. It wa 1.0 fir. - 54. CL-Sou - lo6.5 +_ 6.8 cm2- At the same time, measured values of neutron age appre- ciably exceed calculated-values. S. Zaritalkiy [Abstracter's note: Complete translation] Xa 2/2 ------ Ca-  r; j Sel, Mhar" S:a, 54) Tr TU I Dfjf~- AA.fic .0 'A u iii;,hei, Ed,-Ic vtixial InsLitutions (10) !"o. 1~81, 5 55  TMOVA, L.G., kand.med. nam Exacerbationa snd relapses In Botkingo disease. Sov.Yed, 27 no.7MO-114 J1163. MR& 160) 1, Iz kafedry infektsionnykh bolemey (ispolmyovushchiy obya- zannosti zaveduyushchago L.G.Yurova) Luganskogo meditErinskogo inatituta, (HEPATITIS, OFECTIOUS)  gird, .SKACHKOV. Sargey Vladintrovich; KONSTANTINT. Uionar~ Vouillyevich; STROGANOVA. Rimna Petrovas, YUROVA,_Ud4a-Uikalaoma,.-.TOPORXOVA, Bleonore Petrovus; HYDNIX, Y-.-I-.,r-ed.; KWHASHOVA, N.Ye., teidha.red. [Gollectica of problems in.nuclear physical Sbornik zedach po Ladernoi ft~ike, Moskva, Goo. ird-vo telthniko-teoret. lit-z7, 1958. 164 p. OURA 11:3) Ofuclear physics-Problema. exercises, etc.)  TWRO XHR0140v, Y.Y.; HYHTBYI(OYA, )S..A.; POLYAxOvt,A.A.; FXTROTA, (I.Te. Inves4tgatlon of the performance of a proportional naiLtron countor filled with boron triflnox,ide..,Nek.vop,,Inzh.fiz. no-3:65-73 '58. (MM 12:5) (Neutrons-Measurement) (Nuclear counters)  33237 3/089/62/012/002/009/013 B100138 AUTHORS: Yurova, L. N__ Polyakov, A, A., Ignatov, A. A. TITLEt New measurements of U 235 fission neutron age in hydragen- containing substances PERIODICAL: Atomnaya energiyat v. 12, no. 2, 1962, 151 152 TEXT- The distributions of 1,46-ev neutrons as a result of slowing down 235 U fission neutrons in H20 and C 15H 16 were measured for two eource thi.ok- nessesi 00 and 1.8 mm. An indium detector was placed in a stainless-steel tank in the thermal column of the reactor for measuring the age of neutrons slowed down in C 15 fil 6. A highly,enricheId uranium metal target converting fast fission neutrons into thermal neutrons was the neutron source. Tho noutron di,atribution was.determined by two targets, one at the end of a 150 mm long aluminum tube, the other 120 mm from the bottom of the tank for control measurements, which bholwed that the aluminum tube did not dia- tort distribution. On the outside of the tank bottom dnothor tPorgot was Card 112  3323t S/089/62/012/002/009/013 New measuremonts B102/B138 placed. The.rneutron distrib utions were measured and curves log R - f(R) wore plotted in the R-range 0 - 50 cm; log R fell almost linearly with 4'n- creasing R. The following results wero obtaineds measured Moderator 1.8 mm S- 0.3 mm calcul  014 S/06 62/012/C 1/0 V 1 B1 02Y3 V., Yudryashovt V Okorokovs stepanov!l B-P yuroval JUTHORS' ramcte.,M measurements of the diffusion Pa Be TITLE: some results Of pul of organic li-quids nergiYat v- 12, no. 4, 1962, 331-332 PERIODICAL: ktomnaya e as used to Measure the decrease constant a of y.,T -. A V~vlsed source W 11 (18-2500c). The meas- E. one in C 11 (100-25000 and C 15 16 T ,I,hermal neutr 12 10 Cd piston. The in a Cylindrical tank with a i)re carried out on soll'fce- Urements A is-ton served as~vn additional fast-noutr moderator ~jbove the p varied by means of the Piston- ke geometrical parameter~l was e with respect to absorPtiOnt TY, , )S12- T - life-tim a /T + DS1 - (OD - C, T I n coolingi ..ef,ficient of diffusiO D diffusion 00efficienti cD Ch WS.S obtained traneipo-rt-theoratical correcti(in; from D - Ktr V3 Whi T for each temperaturcip when ea urementso Xtr was calculated from thO U-m 5 card -1/2  S/089J62/012/004/010/0714 some result-P,,of pulse ... B102/P104 Maxwellian and the mean assuming thE thermal neutron spectrum as bein, neutron veldicity vo N2k.12/n, (T - absolute temperature of the medium). From the cul,vea Xtr = f(V0 tr ,,vO-53�0-03 (diphenyl) and ^jV (monoisopropyl diphen;(I) was obtained. A (v) alao differs- tr considerablj for equally structured media. For diphenyl the neut;-on 3pectrum was moat similar to the Maxwellian. Nelkin's mmethod was used to do'WITI.Inc, 0Whon nuouming woak dependence of 4 on the neutron i~nexjy a D, tr2 0 rameter on - (a + 1/2) _rn D2 v III -,V~h e r e IM trvE is a free pa. 2t 2 is the second moment of neutron energy. The calculated values agree with the measurfid onea within the 1I.Taite-of error. There are 2 non-soviut references. The reference to the Ena-lish-language publication reads as follows: 11. Ifelkin. J. Nucl. Energy, Rt 48 (1958)- SUBMITTED:. JUIY 14, 1961 Card 2/2  389C9, 2- 2-110 B1102/ 104 AUTHORS: Kozl,ovap Nv V., Yurova, L. N TITLE., Interkotion of fast neutrons with uranium 'and thorium' nualdi PERIODICAL: Atomnaya energiyap ve 13, no. 1, 1962# 62-63 TEXT: A, beam. -of 3~bactor neutrons with energies between 3.5 and 13.5 Nev (in which the number of neutrons dooreasee linearly with increasing %) was used to.6tudy the interaction of neutrons with U and Th nuclei. The beam passed along a steel-lined channel (25 mm, wide) and through a paraffin shield to strike the U or Th targetp a ball of 23 mm diameter. The scattered neutrons were recorded by NMK~A-K (NIKFI-K) nuclear emulsion plates of 100 p-thickness. The experiment was carried out in three stages:! first the scattered neutrons were recorded, then the target was removed and the background measured, finally the target was replaced by an emulsionl~ plate and the spectrum of the reactor neutrons was measured. Theresulti SpectraLd(E are ste.ted numerically for the scattering angles 30P 45, 60, 90, 120, and 1500 in the dase of 11 and 30, 60, 90, 120 and 1650 in,that Of ii Card  W-,--  M-  777777T ACCESSION OR: AT4018976 0/3064163/OW/00410043/0046 tralyakova A. A. 9* Isnatov, A* A* AUTHOR: No i TITP-. 1he age of fission neutrons in water SOURCE: Macaw. Xnzh.-Eir.. Inatitut, Nekotory*ye voprosy* inxhentmoy fixiki (Some problems in engineering physica), no. 4, 1963, 43-46 Topxc nas: nuelear reectorj neutron, ftesion neutron, neutron age, neutron absorptiil= Th authors note that recent experiments to determine the age of ABSTRACT e neutrona, in water indicate satisfactory agreement between the value of 26.0 + 0.5 cmz givoin by Kh. Golldshte-yn, P. Tsveyfel and D. Foster (Trudy* Vtoray mezhdunarod- y konl: r taii po mirnamu LspollzavanLyu atotmoy anergii Geneva, 1958). Zcbr. o .e en n -dokl. Litostranny*kh ucheny*kh. T.2 - "Keytronnaya Mika". ff,,, Atomizdat, 1959, str. 689) and the new values of 27.3 + 1.0 and 27.3 + 0.9 ca2. given by L. N.* Yurova, A. A. Polyakov, and A* A* Xpatov (t"*ya ismarenLya vocrasta neytronov v de. "'Atomnaya energLya" 10,, no. 2$ 1961) and by 14mbard and 111anchard (Huct. vo Sci. Engng, 7, 5v 1960)8 respectively. It is pointed out that the rated and experizental4ata couvergas LE the,dependence of the spatial distribution of the r Ord th  ACCESSION NR: AT4018976 slowed neutrons an the effect of the absoirption of these neutrons In the source Is considered during the experiment. However, the last two papers mentioned contain no calculations confirming the existence of this dependence. In the present paper, an estimation of this effect -to given an the basis of a concrete exaWle. An nsidered, The material-of the .infinite laminar source,, with thickness d. Is-ca source to U-235. The flow distribution from the. tight-hand side of the source -1 (x ?o 0) iv found. All the neutrons are broken down into three energy amps - mid - the aaaumqitiou is introduced that the laminar 00=6 ab6olutely does not abgocb neutrons vith energy greater than UY& ew. An a2pression for the spatial dis tribution of the stren is derfted, after which th4 nautrou w with different source tMcknessee can be Gasily computede Mr a plain, (glat) case the following are the results: when dz 0 VW 26.9 Ca2 when d a 0,18 om .8 31 tcard 213   ACCESSION DIR: AT4018978 AUTHOR: Wrova, L. N.; Kozlova, N. V, TIT4E: Non.-elastic scattering of fast neutrOns SOURCE; Moscow* Inzh.-fiz. Institute Nekotory*ye voprorpy* inzhenernoy ftz1ki (Some problems in oingineering physics), no. 4, 19(33. 59-90 TOPIC TAGS: neutron, neutron scattering,, fast neutron, non-elastic scattering, magnesium target, nickel target, copper tazget, zirconium target, lead target. bismuth tariat, ABSTRACT: in the basic experiment, theresults of which aredescribed in this article, neutrons with an energy EO = 2.5 Mev were obtained as, the result of the Motion D(d, n) He3 with a mean energy of inaidentdeutmnsof approximately 170 kev. Thetestswere V ent deuterons. The conducted on a plane almost perpendicular to the directloi & the incid source spectrum consisted of the basic group of iteutrons with energy of 2.5 � 0.120 Mev and neutrons with energy less than 2.0 Nev, caused by the backgrourA. To record the neutrons, nuclear photoplates type 4 and Y&- 1-2105 obtained from the N. - I. kinof6toinstitut (Scient1fic Research Institute for Motion Ploftre Photograpba) were used with an emulsion layer 200 and 103 microns thick, respectivifly. la terms of their chemical oomposition, Card 1/5  AT4018978 ACCESMON these emulsiOns-re Isemble the Ilford-C-2- Id Jon-and 2. 5 Mev energy r em a Anthe -0.5 egl~n_ have the same decelerating ability. The geometry of the experiment is illustrated. Tar- gets of the test materials were made In the Borm of truncated cones. The dimensions of these cones Ozd other experimental data are tabulated. The neutron source, the target and the detector tkre so positioned as to record neutrons soattored at om noglo of 100 - I- 504 (calculated jyvan scattering angle = 100'). In order to increase the scattering, two targets wereused and aphoto-plate dector was placedbetween them, withthe emulsion-covered side )of the plate coinciding with the direction of propagation of the neutrons. With this type of I arrangement, the detector simultaneously records the scattered and the source neutrons. In order to -rixord the background neutrons and the source neutrons, a second detector was positioned symmetrically with respect to the -first. Thus-, ~ this geometrical arrangement made it possible, in a single experiment UP obtain the spectra and intensity of three different neutron streams (source neutrons, background neutrons and scattered neutrons) at the same time. 7he yield proton traces ivere measured on the plates.1n. two directions: in the direction of the source neutron streanis and in the direction of the. background and scattered ne,4:itron streams, Measurements were made of the traces of all yield protons Card  ACCEMON MI.-: AT4018978 locato4 n the jimulsion ott an angle of not more than 134 to the stream of incident neutrons, In th16, experinient, the plates measuring the 11ource neutron spectrum-,-Oso served an monit 'rs. re, cc pared on the basts,of the intensity of the -Th'a different measurements we In neutr CT spectrum (energy region 2.0 - 2.6 Hev), qns of th~k, basic group of the source neu. Ott with the same. intensity,taken in the calculation of the scatter sections. The spectra of ns with:a minimum energy of 0. 8 Mev were considered. In the spectrum of the neutro scattered neutrons, a number of maxima can, be discerned, the position of which was de- termined with an accuracy of � 50 kev. To each maximum seen In the spectrum of the -unelasMcally Ocattered neutrons there corresponds a definite excitation energy of the forming nucleus. ..The derived values for these energies are given in a long table, which incorporates the, results of previous studies Ws well. The various excitation.levels and energy values are discussed in detall for each of the test materials (magnesium, nickel, copper, zirconium, lead and bismuth). In a further section of the article, a formula Is given for calculating the cross section of elaistic and non-elastic scattering of neutrons with an energy of 'R. 5 Mev and the results of such computatlons are given in a table. Two con- trol experiments to check the results of the basic experiment are described, and the meaturemBnt of the spectra and section of nimtrons with an energy of 2.5 Mev noa-elastl- CaUy scatterod by lead -maclel at aigles of O.i. 40" and 10W Is moldered. The values Card 3/6  ACCEMON IM AT4018978 derived In this work for the elastic scatteritig section. are In good agreement with the results of other previously published work. This Is also true of the energy values of the nuclear excitation leir'els. The cross section values for non-elastic neutron scattering With excita- tion of Individual nuclear levels are,- by and-large, in satisfactory agreement with previous findings. P41 results confirm the presence of anisotropy in the angular distribution of non- elastically a,zattered neutrons With incident.neutron energy on the order of 2.6 Mev. "The Petrova in 1954, those on Zr by G.V. measuremerits of N1 were carried out by T.Ye. Kotellnikova. in 1956.11 Orig. art. has: 6 tables and 11 figures. ASSOCIATION., lazh.-fiz. institut, Moscow (Engineering Physics Institute) SUB=10); 00 DATE ACQ: 05MEu,-64 ENCL: 01 SM CODE.4 NP OrHEIL- 024 NO R9F GOVt 014, 4/6 Card