SCIENTIFIC ABSTRACT MORGULIS, N. D. - MORGUNOV, B. P.

VORGULIST Naum Davydovich, WRISOVSMA, K.A.F red.1 VUSIOU, (Thermoelectric (plAwa) energy cormerterl Ter-welektriviqi (pla=aWi) proobrazoYttell onergii, Foak-val, Gos,izd-To, lit- ry v oblasti atorzoi nauki i takhnikio 1961. 80 fhU 15t2) (Tharr,oolectric apparatus wd appliawes)  j,q 5/141/61/00410GI/022/022 9192/9582 AVrHORt mono CLven TITLZ& Fourth All-Union Conference on Radio-*Loctronica of the Ministry of Specialized Higher and Secondary Zducation of the USSR PWODICALs Isvestiya vysehikh uchobnykh zayodoniy, Radiofixika, 196L, VoLo 4, K*, 1, pp. L67 - L96 TUT: The conference took place during October 24 - 29, 1960 in KharIkov And was Attended by 1 000 deloCat*n from 35 towns in the Soviet Union* Over 250 papers wore read at the conreronca* The conference was opened by the Deputr Minister of tho KVSSG Ukr53R (Ministry of Specialized Higher and Secondary ILducation. of the Ukrainian SSR) Conrad& I:.S. Dzyubko and by the lect-ares of Corresponding Member of the AS Ukrainian SSR C*Tao Braude, entitled "Radio Oceanographic Investigations of the Sea-w&Y* Phenomena" and Corresponding Kember of the AS Ukrainian SSR N.D*jf~~x dealing with "Some Problems of the PhyxLes of "TH-"Lonic tmcrgy Conversion"s Card 1/9  S/141/61/004/0011022/02Z Fourth All-Union Conference 91921936Z During the concluding plenary session the following survey papers were read: "Some Problems *C Clectrodynamics and Thermodynamics of the General Relativity Theory Ourihg Accelerated Motion of Macroscopic Bodi*s with Relativistic Velocities" by V.L. German and "Methods of Uperimontal rnyeatigation of Electron Iteams" hy U.S. Zinehenk*. The achievement of the conference wax summarised by Corresponding Member of the AS Ukrainian SSR A. r&. Usikov. The conference recommended that the Fifth All-Union Conference on Radio-electronics should take place in Minsk in the Spring or 1962. The conference was divided into the following sectLonx: eloctrodynamics at URF; UHF electronics; general *Lectronics; quantum radLophysics; radio-wavo propagation and radio- astronomy; general radio-enginetring; semiconductors and their application in radio-engin*ering and radio measurements. Card 2/6  S/141/61/004100110221022 Fourth All-Union Conference eooe 9192/9382 I* Papers read at the sections of UHF electronics, Central electronics and MW *14atradynamics. In general, it can be, said that the papers in these sectionx were, mainly concerned with the investigation of various processes dealing with the interaction of plasma and eleatro- magnetic fields* The work of O.G. Zagorodnov at al described tho experimental investigation of tho nonlinear distortion of sLausaidal electromagnetic waves propagating in a cylindrical plasma waveguLde. The, lecture by V.Te. Golant and AoP. ZhllinslcLy dealt wLth the nonlinear affects which accompany wave propagatLam Ln wave- guLdes containing plasma. The work or v*D* Shapiro investigated theoretically the stability of Longitudinal nonlinear caeLlIations of plasma electrons with respect to the perturbations whose warelength is small in comparison with the wavelength of the stationary potential. Card 3/8  s/L41/61/004/OOL/OZ2/022 Fourth All-Union Conference 9192/9592 The works of O.G. Zagarodnov ot &I were devoted to the investigation of the propagation of electromagnetic waves In moving plasma. A detailed analysis of the propagation of electromagnetic waves In plasma waveguides was given in the experimental works of O.G. Zagorodnor ot &I (three papers). The work of V.P. Shestopalov and X.P. Yaklmenko investigated in detail the scattering characteristics of a helix-plasma system. The paptir oC N.A. Kuzlmin was concerned with the variation method of analysis of the waveguidos which are partially filled with a gyrotropic mediunt. The problem of wave propagation In a wareguldo partially CLLL*d with a weakLy relativistic plasma Lit the presence of a constant magnetic field applied sIong the axis of the system was considered in the work of A.V. Gaponov and H.I. Pet*Lin, The paver of Ta.H. Turover was concerned with the evaluation of the possLbLLLty of description of a plasma delay Lint by telegraph equations. Card 4/8  S/Lkl/6110041001/022/022 Fourth All-Union Conference 9192,(t382 The work of V*Oe tranova and V.So MkhalevskLy Car* an experimental investigation of the frequency-control of a travelitag-wave tub* oacill&tor. The paper by Yu#F. Filippov was devoted to the Investigation of magnatohydrodynamic oscillations of the medium in resonator# and wayoguLdeso gleatromagnstic waves propagating in plasma transversely to an external magnetic field were considered in the work of Tu*Ne Dnextrovskaya and DePs Kosto=arov. Several papers were concerned with the investigation of the interaction of plasma with el*ctron4ad Lon beanal in partioul&rq K*S# Kovner investigated the, stability of a be&= of ch4rged particle& and plasma by using the kinetic equation. The paper of V,O. Rapaport was concerned wLth tho phenostenologicat method of solving the problem of amplification of electromagnetic waves in a plasma b4an moving in plasm* in the presence of a magnetic rieLd. The work of Y.O. ghapLro considered tho deceleration of con vlectron. b4&a an a result of Lts interaction with bulk plasma Cecil onso Card 10  S/141161/0041001/022/022 Fourth All-Union Conference u92/nft H*A. GintsbUrg &art a detailed analysis of the interaction of plasma with Lon beams on the bnsis of the kinetic equation. The problems or high-Craquency discharges in rarefied Cases wars, discussed inteo, papers: the work of S.B. Hochenev gave a theoretical analysis of the influence of irregularities of the magn*tic field an the discharge characteristics, white the work of G.N. Zaxtenker at &I gave results of an experimental investigation of the formation of Ow diec-harge, at frequencies between 3 and 20 Hc/x and presmurea from 0o3 to 30 mm Hgo IeA. Savchanko and Aek. Zaytsev presented the results of an experimental investigation of the electron oscillations in plasma. 2. Socti4n oC UHF electronics. The papers read at this section dealt with the interaction or plaima with electromagnetic fields; apart from that, a number of papers dealt with the theoretical and experimental investigation or electron devices for UHF. The opening Lecture at the section by V.S. Gantburg and V#G. Karmazin surveyed the pratent state of technology of a high-%qwar klystron amplifier. Card /8  S/141/61/004/OGI/022/022 Fourth All-Union Conferenco e*ee EL92/9392 3. Section of UHF electradynamics. Some of the papers read at this section dealt with the propagation of electromagnetic waves in plasma. while a number of papers war* concerned with the problems of the electrodynamics of delay systems, waveguides and resonators. 4e Section of general electronics - During the sessions of this section, L5 papers were read and discussed. Some of tho papers were devoted to the Investi- gation of various! aspects of electron optics. 5. Section an quantum radiophysics. Some of the papers in this section dealt with tho problem of nuclear magnetic resonanco; several papers were concerned with the processes taking place in ferrite medial other papers were devoted to the theory of masers and parametric amplifiers. 6 Section an radio-wave propagation and radio-astronomy. T~e 37 papers read at this section were devoted to some of thie problems of radio-astronomy, experimental and theoretical investigation of radio-wave propagation in nonuniform nodla, Card 7/9  S/141/61/004/ool/m/022 Fourth AIA-Union Conference 0090 Z19219382 methods of investigation of the structure of the ionosphere and to special antenna systems. 7. Section an general radio-engineering. The 12 papers read at this section covered a fair variety of xabjtcts. Be Semiconductor section. Some of the papers read in this section were concerned with the preparation and application of semiconductor devices fbr radio- engine *ring; there were also papers dealing with the investigation,of internal processes in semiconductors* 94 Radio-measurements section. The papers in this section were concerned with the development At- and investigation of quartz crystal oscillators, measurement of the parameters of travelling-wave and backward-wave tubes, measurement oC dielectric characteristics of various substances and new methods of measurement, I; Card 8/8  KORGULIS N.D. lmorhulis,, LD.]I~ KOCIMEKO.. R.I. Pkrtial adsorptionand desorption of residual ps coapcnents, on the w=faces of germanium and itilicon single cryatals in a very hIgh vacuum. Mr., fis. zhur. G no.3076-385 Ky4e 161. (HIPA 14-'S) 1, KiyeTskiy- gosudarstremyr universitet. im. T, Sheychenko. German$=, crystals) licon cryatalm) M (Gages in metals)  dAU9/6l/006/vl2/015/020 D246/D)05 6, 570 0 AUTHORS: -Morgulia, N.D,t and Korchevoy, YU.P. TITLE: khysical properties of the Caesium plasma of a thermo-electrical energy transfurmer PERIQDCIAL: kadiotekhniia i eleKtronika, ve 6t no. i2, 1961 2073 - 2083 TEXT: Tnis is a detailed repurt uf experimental worK, brief results of which were publis-ned by the authors in (Ref. 4: Dvk J' ady 10,1MR lj6l, -136t 336). The apparatus used was a caesium rillei vacuuw lamp, depicted in Fig. i, where 1 - W-cathode, covered with ThC20 Ta-anodep 5 - W-P! thermocoupie (caihode %emperatur,! was measu- red 'by optical micropirometer), 4 - W-wIre probe; :~ - a(ijustable slide for Lhe probe. A, number of precautions were taken. described V,/ in earlier papers and several parameters (pressure, satitrativn tem- perawre of Caesiump vaport rate of work) were changed. The curves representing a large number of measurements ccnfirm the conclusion of the earlier publication that there are two entirely different Card 1/4  ~O 0 VIOJ61/06/012/015/020 Physical properties of the D246/D305 working conditions of the thermo-electric transformer; Qat.sivacuum at low temperaturesp are - at nign. ones. The character of the Cae- sium plasma is different.in these two cases: In the first instCance it adjoins the cathode and a potential jump U. sep&rates it from the anode. This U a depends on the working conditions and becomes zero for optimum power. In the o*her statef the plasma is separated from the cathode by a potontial jump U k and a small neeat..ve poten- tial Va; it is iatensively lumincacent. All this is very near to x ifte well-imown. low-voltage arc di:.charge at reduced pressitre - there are other arguments to support thl.s analogy. hieaaurements also con- firmed quantitatively the earlier ideas on the "electrode" charac- ter of this device, iire. the output potential is obtained from the contact potential difference be,:ween the electroces. Hen~,.e the poa- sibility of drawing large emission densities (I ) from a.e-,al-caesi- um cathodes without using additioaallonizator, 9ee rig, 9p where optimum 10 is plotted as a functi3n of temperature for T a cathode, when d = U-3 inm* The authors calculate ihe liciting press-Are of Uard 2/4  30440 3/109/61/006/012/U15/020 Physical properties of the ... D246/D505 Uaesium vaporp necessary for neutralizing the electron space charge currentp I. p + (2) 0 em e 0 where a and ionization coefficient of atoms and neutralis;ation coefficient of ions respectively on the cathode surfacet To C. t + +. 2730. It is in agreement with experiment.* They also calculE.te the various pozential jumps at the electrodes, assuming the iwo ty- pes of operation. There is a satisfactory qualitative agreemcnt with experiment* As several serious facts point against the "plaa- ma" theory of this deviceg the plasma phenomena may play oniy a ea- condary role in the mechanisms. There are 10 figures and 17 refe- rences: 12 Soviet-bloc and 5 non-soviet-bloco The 4 most reccnt re- ferences to the Englich-language publications read as followt: H. Lewisp I* xeitzp J, Appl. Phyaof 1959P 50v 1439t 1458; Go Urcverv Hucleorticst 1959t 7# 54; W. Rankeni, Go Grover, E. Ual=f JO 16PPIO Physop 1960# 31o 2140; Card 3/4  S/109/61/006/012/JI5/UZO Physical properties of the oes D246/D305 A330CIATION: kiyevskiy gasudaretvennyy universitet Imo T.G. Uhev- chenko (Kiyev Utate University im. T.G. 6hevcaanko) SUBMITTM)t kay 27,P 1961 pig. 1. PKC, Pig* 90 Card 4/4  2T605 S/05 61/000/009/001/013 1/0 B105YE101 AUTHORs Norgulis, N. D., Corresponding Member AS UkrSSR TITLEt Direct conversion of thermal into electric energy PERIODICALz Akademiya nauk SSSR. Vestnik, no. 9, 1961, 25-51 TEXTt Th6rmal energy is discussed as to the principLxl methods for its conversion. The late A. F. Ioffe made important contributions in this field. Three direct methods (thermoelectric. thermlonic, and ferroelectric- ferromagnetic) as well as one semidirect method (magnetogaedynamic) are mentioned. The Seebeck effect served &a the basis for thermoelectric converters, in which semiconductors are used. They should possess maximum electrical conductivity and minimum thermal conductivity. Semiconductor materials in which the hot electrodes attain a limit temperature of 6000 C are at present regarded to be suited. PbTe or NiO served as s~n additional intermetallic compound. Kany low-power plants are being planned and built. Conventional fuel, solar energy, as well as the heat liberated in nuclear reactors or when radiation of long-lived isotopes is adsorbed, are used as heat sources. Thermionic converters make use of the thermionic emission Card 1/3  27605 S/030/61/00/0)9/001/015 Direct ronversion of thermal Into ... BiG5/B101 from heated solids. The efficiency depends on the temperature difference of hot and cold electrodes. The following is required in practice: (1) a high electron current to overcome the larege spatial electron charge at the cathode; (2) a low voltage accelerating the electrons between the electrodes. This can be attained by introducing 0.01 - 1 mm Rg cesium vapors into the device.' The electron charge at the cathode can also be neutralized by al- lowing the electrodes to approach ziOIL. For a sufficient themoeelectric emission at w-1200-22000C, the hot electrode (cathode) should consist of UC, ThC 2' or cesimm-coated metals, or at,,x2300-28000C, of Ta or W. The tempera- ture at the anode should not exceed kBOOOC to avoid cesium foil desorption and an appreciable inverse thermionic emission4 Laboratory-type converters yielded an efficiency of 0-15',) and a useful cathode power ranr.,ing between 15 and 30 w/CM2 at an output voltage of I - 2 v. A future thermionic converter of 1000 kw and 100 - 200 v might consist of 100 cells connected Card 2/3  2T605, S103OJ611000100910011013 Direct convorsLan of thermal Into B105/B101 in series with cathode an& anode cylinders space& at u1 am and a total area 2 ofxsi.5 M . L &-a to &-a converter is additionally requirv& in heavy-duty plants. Mugnetogaadynamic converters are based on the excitation of electric current in conductors moving In a transverse magnetia field. L maximum increase in the electrical conductivity of the plasma flux is very important. This field of physics as well as the part played by the restIting Hall effect are insufficiently known. I typical 105 kw plant is based on a plaant flux obtained by burning fuel containing 1% Potassium at 22000Co The controlled flux velocity is thenavI05 am/cta, and the magnetic fie.Id intensity - 104 oersteds. The plant is%10 m long in this case. its efficiency may attain 60%. Nonthermal methods of obtaining electric energy. may soon be appliaablos Later oat the problem of electric energy supply will be completely solved by controlled nuclear remctions. There in I figure. ISSOCIATIOTs LIC USSR (15 UkrSSR) Card 3/5  25032 S/05T/61/051/oOT/015/021. B104/B206 ~ __ ~~ Korgulisp 9. D., Korchevoyp ru.. P., and Chatov, 1u. 1. HORSt A TITLEt Physical-peculiarities ol." thermionic.energy conrk:psion P-&aIODIGLLt Zhurnal tekhnicheakoy fiziki, v. 31, no. 7, 1961s 845 -,e,,, TEXTo 'The authors study the emf of energy converters and give datc-ot its dependence on cathode temperature and caesium.-vapor pressure. In the first part they refer to the fact that the omf F_ of a converter is de- fined by the sum 4 C= r -*- [IV ,; on the condition ZE - 0. 1k, I., ani I P are the total cathode-, anods- and thernionio currents. With the aid of the diagram In Fig. I the authors show that only in the simplest case I (Fig. i), and when the addS~- * S , Sk a 3S and Lk fe La are fulfilled (where tional conditions I < I a p0 Is thit-surface and A ihe Richardson constant), equation (1) &gauzes tht, known form r I *-2 n (2). Y Card 1/4  Physical peculiarities of... Z5 2 5,/05,7/,6 1/03 I/Oor/o 15/021 B1041=6 Thus# the ialae of the oaf appears to lie an insufficiently definit quantity which depends on S, A, R sta. It does not directly chaziater- y Lze the important converter parameters, the current passing through the converter# etc. A comparison of experimentAl data with the results ob- tained with (1) under the condition I p < I shows that I P must not be neglected. The application of a more suitable parameter for these con- verters Is proposeds the optimum initial voltage with regard td ~he ot.xtput. The dependences of this optimum Initial voltage v an the cath4de temperature T are graphically shown in Fig. 4 for Aix different k cathodes. The authors refer to the independence of vM from Ticr and latiLia, that an increase of v m equals an Incr(tase of the work function of the electrons. Thus, Y m appears to be a ituit&b;e characteristic of energy converters. ra connection with the paergy donversLors xt comparativelr1ow temperatures (temperatures of the.saturated caexium vapor of 150 - 25000h the authors investigated tungsten-caesium cathodes &tz a) low cathode tea- peratures and emission optimum, which corresponds to a monatomic coating Card 2/4 4!-. I.;  25032 S/057,/61/031/OGT/o15/OZ4 Physical peculiarities cf... B1041=6 and low work function of the electrons.. tnd b) very, high tomperaturell' for almost uncovered backings. The experittentally determined charcateristics. of these cathodes for various aaexium-vapor pressures show the~positive role of additional caeqiun sources of 1hermions.. The caesium-coated atet&L cathodes prove very promising for use in energy converters. B. 1. Kikhaylovokly in mentioned. There are 8 figures and 17-referencest 11 Soviet-bloc and 6 non-Soviet-bloo. ASSOCIATIONt Kiyevakiy gasudaretvenny)- universitet (Kf_;rev State University) SUBMITTED c May 3, 1960 Card 3/4 0 74&- P"PE"  89613 /61/136/002/017/034 S/020 B019/BO56 AUTHORSi Morguliag N. D.9 and &-orchevoy, 'ru. P. TITLEt Some Properties of the Cesium Plasma of a Thermi6nio Energy Converter PERIODICAL: Daklady kkadeuit nauk SSSR, 1961, Vol 136, No.2 pp. 316-338 .0 TEXTt In the converter, by means of which the here described experiments had been carried out, a tube with a ThC2-c&thode and a Ta anode with Cs vapors was used. The cathode-anode distance was roughly 3=, a W-Pt thermocouple was fastened near the anode. By means of a probe, the Ce plasma parameters ware measured. From. the measured results given in form of two diagrams and one table, the authors draw the conclualonst 1) There is no connection between the electron tempera,ture T. and the cathode tea- persture T k or between the anode temperature T a, the electron concentra- tion na and the converter parameters. In the case of short-circuit opera,tiong Te isq in most cases, less than in the case of a maximum Card Y4  696,13 Some Properties of the Cesium Rasa& of a 3/020/61/136/002/017/0,94 Thermionia Energy Converter B019/BO56 Initial output. Corresponding to the low degree of ionization of Cs, n. attains considerable values. This provides the possibility of inoreasing the short circuit current JO further, and also, by increasing the emission power of the cathode, to increase the initial output. The potential VP *f 'Whe inner plazas may be lower and higher than the anode potential. With an increase of the Ce vapor temperature t, T P becomes positive, and the characteristics moves towardmthe right. The authors further studied the affect produced by the vapor pressure upon the plasma parameters, and in Fie. 2 the dependences of VP, no, To and J. upon t for T. - 20500 K are graphically represented. The diagram uniauely shows the existence of two different operational conditions, whose range limit is at tM 1450 C- These two operational conditions are discussed, and further a phenomenon is describedt which occurs with small p. Lacordingly, in transition from short circuit operation to operation with a maximuz initial output, VP ohanges in the positive direction. The result3 obtained up to now are discussed and finally the continuation of these investigations is announced. There are 3 figures, 1 table, and 6 referencest 4 Soviet and 2US,. Card 2/4  Some Prop'ertioa of the Cesium Plasma of a S,/020 M$6/002/01T/034 Thermionic, Enera Converter B019/B')56 LSSOCILTIONt Kiyevskiy gosudaretyennyy universitet. iz~. T. G. Shercheaka (Kiyev Stat4 University imeni T. G. Sherchonko) PRESENTEDc Tuly 18t,1960,1 by A.,?. loff,e, Lcadezician SUBMITTED: JTUIY 15, 1960  '114497 .4 S/109/62/007/002/022/024 1;26, D256/D303 A! THUAS: Wraulis.-ID., Levitakiy, S.M., and Groihev# I.N. TITLE: Current oscillations in the system of a --.hermo-electro- nic energy converter with cesium vapor PERIODICAL; Radiotekhnika i elektronika, v. 7, no. 2, 1962, 352 - 353 TEXT: The experimental cesium-vapor tube contained a Ttktape catho- de and a similar anode covered with a layer of cesium and provided with additional screening electrodesp the distiuice between the ano- de and the cathode being adjustable. The following paiumeters were varied during the investigationt The temperature of tte cathodG T kv the saturation temperature of the cesium vapor t and the distance between the electrodes d* It was found that for a giTe;L d there are two discrete regions where oscillations exist# these are ahown on a t - T. diagram. In the low Tk regions the oscillations 'are allbst purely sinusoidal with a frequency ranging from 20 to 160 kes/sec. Card.Q~2~  5/109/62/007/002/022/024 Current oscillations in the D256/D303 In the second region of oscillations with higher Tk th.~ oaciliati=,. were non-airrisoidal and their frequency was in the rLnge of 1000 kcs/seop the output power of the oscillations at thic. region beint; appreciable. The output power was investigated for both a.c. and d.c. as a function of the load resistance with the remELining para- meters fixe4 at the following values: T k = 2450OK; t - 120OC; d = 1 mm, and 3.6 and 00 watt/cm2 maximum values of the output power were observed for d*c4 and asco respectively# the corresponding vol- tages being log and 0.9 V. The reapectivi efficiency of the conver- ter for d4c. and aoce was estimated to be 5 %# %. There '72 '> 1 are 3 figures and 4 references: 2 Soviet-bloc and 2 non-Soviet-bloc. The references to the English-language publications real as follows: R. Fox and W. Gust, Bul. Amero Phys, Soc.9 1960, 59 80; Electronics 1960P 33, 5, 78. ASSOCIATIONt Kiyevskiy gosudaretvennyy universitet im. t.G. Shev- chenko (Kiyev State Univqrsity iri. T.G. ','hovchen?~r)) SUBMITTEDt July 3, 1961 Card 212  MORGULISt N.D. CHDrhuUN, K.D.It. CHUT.Ov,, ru.1. trfeet of a wguatic, field an phenomena in a diode wl-th essiua vqvrw, Ukrt. fis..shur. 7 no.9tlO03~40V, 9 162, (KML l5tlZ) Is KLyeTakiy goeud&r*tTenrqr.uu1;N9rsLtet ine Sheych,inko. (ftnatic fields) (Dio4s) - (CcoLux)  [*WkuIuQ KAO Role of the phen=468. ocourring on tim cathods. of a plama dic-da as a. model of a magriatogasdinazie energ)r converter. Vkr. fis, %hurt 7 no.10M31--1134 0 162, (KMk 16 t 1), 1. "vokly gomAustvannyy universitat ia, Sheyebodko. (Plasm& (Ionized games)) (Magrietohydrodynaxice) (Diodea)  MMULIS. ND,t KORCIMVoYt ruspo WbMty and ecattering cross section of electrons in a weakly Lonizedcasita plamae Zhur,tekh.fix. 32 no.7:9W.902 JI 162. (KIM 150) 1. Kiyevskly gomjdarstvem3~ universitate (Plana (IOULZW gwas (Electrons-4catte ring) (cesium)  -.KMW4Ws.-LD,.;AMEZVOT, ru.F. Effect, of an interelectroile, cesiumt PlAom- on the charaeteriatics of a thermionic, converter. Zhur. tekh. fiz. 32 no,,12%14V-1487 D. t Q. (KLRL l6r2) 1, Kiyevekiy gowAarstwerW univereitot imeni T.G. Sheychonka. (Plasm (loafted gases)) (Eleatrie cumimt, convertera)  Te. Go W,Vjh~ Ye, G 7,)i -I- ---I ---s "The forrAttoro of a !oi-,plr,-!-qnt and Do rof-- onints in U,,c onto'o.-tr7al 'e"'O nprcnl: of v---rtcbratr:s", YikrolAol. zYmmal, Vol. X, Uo. 1, !). t'1-57p (in Ukraln-lan, rer:tm,! In UwAmn)v - r1libli.-: 12 it,,ris. SO - U-3042t 11 Earcb F3t (L-tapiz "',-iirnal In-kh --Jatr! , Na.7 1~1,9).  t -r- T fT7 , r _ n . Embq!oloa Con.plement fornation In the ontogenetic process In vertebrates. Wdych. zhur. 20,, 110. 4# 1950. 1, *Whly List or i~usslan Accessions, Library of Congress, Aw~lwt 1952. UNGUSSIFIM.  MUM To G Oytotaxio shook in dM., Azth. pat.. Hooky& 14 n*.3:52-57 Kay-J=e 1952. (0= 23:z) 1. Of Use DwPartment, of 1, oloa (goad -- 11. IF. Rratinin, A=daq, of Salonces Vimaimlan 85YI)s rngtitdt* of Nxperisdatal Bi*loa and Pathalogr. Kinigtrr of Pmblta Udaltli Ukrainian SSI Uwni Load4miciau A, A* RGCOSG- I*tg (Dimtor -- Prof. A. L. Baconalete).  Investigations an the biological action of purtft*d antirett- citlar cytotoxic cerum. Ko4ch.ghur.?Is no.4c63-65 054.(KIJA 8:10) 1. lastitut fistologit ift.O.O.Bagomoletaya, Akademit nauk URSR (ZMCO-EMOTMIAL STSTIM. antiroticular cytotoxic senim, off.)  W)RGUY, Te,G, (Korhim, I1.11.1 I _.,wwww4M'6i function of the amll. intestine 4urinC animl locomation qm-- [with summarr in gngliahl. riziol. thur. CUkr.] t* na.Z:206-ZI5 (XIMSTUMS) NCTRMT (PUSIOLOGY))  TOROBIrET. A.K* (Torobior, A.K.],, (deceased) CKOMM, Is"K.) ivism. T.r. tsTrKtun, T.r.), SFOSTMVSKATA, I.T., [SH06TAITSM, r.r.] Secretory activity of the stomach an-i pancreas eM fastric evacuation during exaltatiot and inhibition of the cerebral ca.?tox (with summarr iu Inglish). Tiziai.zhur. Cukrl 4 no.4t435-441 Jl,-Ac (56 (KIRA. It c 10) 1. rnatitnt f istalagil is, A.A. Boromolltsa AX USSTL,,~ laboratoriya, fislologil. pishchavarentys; (STOUCK) (PANMUI (CMMRAL CCRTIX)  KCRGtW, 're.G.; SAM. P.A.; STrSTUV. T.r.: STAMM . K.P. Iffect of gammis rays in small doges on the geeret,0:7 and motor functions of the stomach In dogs [with cumary In InClIsh]. Ked,rade 4 no,1:3L-35 Ja '59. (KMA 12:2) i. re laboratorii biofisiki i laboratoril f1tiolcCH pishchevarenlya, rnstituts, fistologil inent A.A. Eopmolltsa All TESE. (COBAM. radioactive. off. of gastric secretion & motility (Rus)) (STOKACH. affect of radlatious. ra4locabalt. on motility (Run)) (GASMIO JUIC1,, secretion. off. of radiocobalt Mrs))  WIGUT, T*.Q~. Norhun. 11-H-1 JN-"uatiug function of the ato"ch in 0, NovinG actluLl- YE910to xhur.~Tw2 5 na.U46-52 la-Z 159. 4= t2z5) Is rattitut fict4logil ix. t-A-Racmalltm AX USSR, labor&- torly% f1stalogil plahchavartalys. (STOVACH) (LxlxLL LOCOKOTION)  XMTM. T4.4. [Nortm, M.H.1; rOTTM. 5.D. At the Ruth Coogress of the X11-Union Sootety of PhysloloClatir, Biochesiste. and ftwxuacalogicte, riziol,zhur, [7'cr.] 5 io.6048- 854 W-D c59. (KIRA 1394) (DrGIST1011) (ILIOMFUSIO=T)  HORGUNt Ye.G. Adsorption of autrients in the =all -intestite darLig motor activities in animals. Vop.pit. 20 no.2t22-28 Kc~-4-7 !61. ',(KRi 14:6) 1. In laboratorii fisiologii pishchavareniya, (zav. .. &ktor meditainakikh nauk N.I.Putilin) Inatituta fixiologi:14. imeni L.L.Bog=oIttsa AH MSR. Kiyw (INTMTINES) !=wrso  MMM, To. G.r kand. biologichaskikh nauk Absorption processes in the small intestine, at Tarious; food intake rates, frach. dale no.3tI00-105 Ifr t62. (MIRL 15M 1. labomtoriy% fixiologii pishchaTaraniya (rukcmoditell - pmf. ir. r. Putiun) rnatituta riziologti, imeni L. L. Bogo=Vtam AN USSR. (UMTIM) (ABSMMON(PHrSIMOGr))  3 34 9-3 for WIRA 18:1) t,'f A, j li;u FR a (,.f tile  KGRGUX, re.G. [Marh=,, ILK.] Kodifioatlam of the anUwor* mathod for detormialft Sqpr in the bloodg, axarstions and some fcodstaffs* Jftsialt, sour, [Ukr.1 9 no.W3"32 V-D 163. (KM 170) 1, Laboratoriya fisiologii p1shchavarerAya Instituta fiziologii in. Bogonalltas. LM UkrSSR, Uyev.  . MORGUN, Ye. M. .Cand Tech.Sci.- (diss) I "Analyois of the. f orage distribution process in commercial dairy farms and means of its mechanization and auto- . matization.." Kiev, 1961. 15 pp; I page of tables; (Ministry, of Agriculture Ukrainian SSR, Ukrainian Academy of Agricultural Sei- Iences); 150 copies; price not given; (KL, 5-61 sup, 191)  T~ It I /-VV-tbN_ *41EVtk I /E%T(bV M-N [Er"'PUll "t AVWIW~D tT.Vb;W .4A,"4TrA." 1!221~ L:!:h Aat % V, '13 (:lp*lAtlfA Of 4 Q-VVltCb-rd nf- -AtO 'ALMer Zhuxmnal priklmb~~,- oi ]LC 'Mrl' ' 1490T1, WICK J LIMLUM 4,11d Alethor-o imestigntrA the., paraxmtera of a sl-n*e puice prn4luned by a latter in whieb a YQzro ~,rl mm rat-tting at % edz u- wn4 Aed Pt-, p t-:) _'xG, 0100 rpm u - since the wat difficult part of Ulte an&lyslz to th-d axlcuislloa ,~f tlw irltrtsve pipa~Ucfn at the instImt. vhem the Interf erftvt-er It Switthed on$ C ervh=e of the thre4!-_ th,!.,lm.0V4r&-_lwGpo;OAo deterkina tbla popo_lAticafr= tb .4c; p-mip "eful lovi 4P AsLctor. The mitdimm msrd wna a cylitAr$cal neo. V in dismater wd L20 to In ra rd-4-4-IX-rit, Imsys. The Irmap ermj I.,y rr-&ched 154P_ 1. rile I mxlmm generatrA 60 _W nW the pullim duraticm- wap. 20 naec. T4ae Lm!najce-ncp curves in 6 ObUABL-d' trith a Zmm Italse enorgy %ma *191 a bp1mirter. 7br tlp~~ 0i,14ravit-orls-Livi of thn pwl, pmeratfirm pulit-oku ver* A clnrtnim dilp.   .-N COAZOW 2AIWO11M. A0, -NH1.i b jev r j t-eirmi nation or loanes in prik1whiov, apektroitkcrdi. Y. 21, no. I.Pser loos, laser effldenc7, Inoer p"-,. thresh6ld, r , f15 Oe uby I er, I i r Im vilew ef experimental aarl theoyeticml difficulties inherent In "W~er thv:mz propose a no-w mi!thu-A r(-r e-k-tortaining the total 1,nin in 1e awrq, "In A Pt 4MIM th Q I Tit 4C~ it- ",,~;w", Uze -,Armip fpowttr in the irnlab ViI2 thresh M pw%p encrip, Wefin-O rx?t tha energy rcceathry to ~,ro- a I;117,111! 1 p L4".,P,) Is 'k-10V rthty level Inverolon ~opulatvikn.I vao mewsured ex-perizamUllyI for tuo rOien of equal,,tize, vitS 141-alse3 varl e4:: Uy -,n* ef the remoneto". mi"orso "he oqi~&tlonx utirtAmed to d1stem-Int the b&rrrul losses, the extrielfAncy, of lihe attive t-no ti~rmA*A-C- '.,:rr 1",m StAn, Tablao are prttst.ntod Y- , ,- 7-imp ;wmr arA -of Min 104 rOffidlemyr Card   31i"N'S1111% ACC HH$_ _AP6006969 SOURCE CODE: 'UR/0368/66/004/01)210179/0179 F__ AUMOR: PillEavithkV. A.; HorWn,_Yu. T. ORGi none TITLE: Synchronization switching system for 9-kDR211ed 12929 SOURM Zhurnal prikladnoy &pektrookopit, v. 4, no. 2, 1966, 179 TOPIC TAGS: laser, I'- --kbehed I ant- 041, me-24"r-, l4"v-4yaa"=1zAt1,on, -4as" r -swite'~hTniagtr44u-'h~todi~de/FD-1 photodiode p ABSTRACTs A laser synchronization eyatem featuring an FD-I photodiodit is described and sho-in in Fig. 1. The proposed system differs from existing syste:oa, which use photocells or phatouriltipliers, In that it eliminates the need for cc-splex power sup-i plies, is very compact, and is convenient and reliable In operation. The system con- sists easentinlly of a receptacle with an aperture, which Is mounted ixially with respect to the total-intA rnal-refraction.-prism 1. An SM-36 type bulb 3 is placed in the receptacle. An FD-11type pho~ ~iqde~!"5 is inserted into a cylinde, 4 at the same level aa the aperture in receptacle 2.2 Laser firing is achieved when bulb 3 is switched in, causing light to be incident through the aperture on the photodiode. LC,~,d - ID  L 1`5 6r'2 ~ -64  ACC NIfi, 06006069 photodiode -r-es- to tenet daereasesi which trij~ r$ the thyratron- 46 P and-supplios the-ftrizS pulse to the flesh lamp. The switching citcult " shown in Flg,.2. _TM.-desired " witching delay time for any-rotation rate of the priva can be regulated by appropriate rotation of cylinder 4 with respect- to tte rotation axis.-- Th2 proposed syptom operated without failure for 18 months. Drig. art. haoi 2 figuresi [YXI SM COOE t. 20/ SVBM DATEt 1910651 ATD PRESS: b,9  MORGUn=,, K., ijahaser; PElCg-'qKO. 11. L now method in action. Grashd.av,13 to -A:;.f-ZS Js 156. (KIAL 799) lAosudaraftemn u=chzs-Lsslad*v&tf Ilakir inatitmt Grathdaaskogs Vasdnahmago fl*tL (for Flargunanko). "oYachallaik Tauk*Ts*cikh LZRX (for Panchanka). (Airpumeg-laggizea)  hemer. Ilbating one-anale -.ervury-vrc rectifiers vf*th thn aid ,-f -. , :-1) . att,7o W, . 3non:o t"k 5, r.- .7: P-14 il '57 1 1 01',irc,try-aro rnctifiers)  MORGUVOV, if.., izh.,; IAORGIUKOV, A., inzh. Check-row planting with the aid of radia. On-takh. 5 cti.5:22-23 Kj- t 61 e (Radio in agriculture) (KIEA 14z5) (Pla.nters(4piculurai machinerr))  5(4) AUTITC.IIS: Fomin, V. V., '"trworets, P. A.9 SOV/78-1-3-35/34 ~Ior&unov, A.. F. TITLE: -TIG ~nxtra-ctlon of Sulfuric Acid With Benzene Solution of Trioetyl Amino (Ekstraktaiya sernoy kislot~, r-stvoron trloktilaiaina v benzolo) PER I OD I CAL: Zhurnal noor,;-nicheakoy khi-M, 19599 Vol 4, "r 3, PP 700-701 (U35-1) ABSTRACT: The extrnation of 9"Ifuric acid by benzene 30lUtiona of trioctyl a::iine (TOA-R) waa invostiCrited at different Rcidity. For the inve3tigation of polymerivition the cryosco-lic -.Iethoi was used. It was found that in the cnoe of low acidity of the solution (RU) 00 is formed which, with Incrensing concontra- 2 .1 tion, polymerizes in the organic phase. In the caae of exces- aive sulfuric acid the normal sulfrite pniseo over into acH sulfate which forms poly-~ers from 3.11 - 3.1, mole- Lpdl:: 0 4] 3 cules. The poly,3orizntlon conntant-i crIvulptel hold only in the case of the polyiners - 1( R") 2:"%o 113 -There are [(R")230112 or Card 1/2 2 tables and 3 references, 2 of which nre Sovi#it.  The Extraction of Sulfuric Acid With "anzene SOV/70-1-3-33/34 Solution of Trioctyl Anine . ASSOCIATION: 11oakovskiy ordena Lenina khimiko-tet-.;inolof;ichool-~-.,- Institut Im. D. I. Llendeleyeva (Koccow Lenin Order Che-ticitl-tochno- logical Institute imeni D. I. *!fmioleyov) SUB7.1ITTEDs October 12, 1958 Card 212  SOV/TS-4-10-17/40 A7"THORS: romin, To Tej 'Zoagoretat ro A*. Kargunav, Le Y&, Nrtla~zlk, Z.r. TITLE: Extraotion of Iron Chloride by Keane of Dibutyl Ether PF-iIODICAL: Zhurnal neorganicheakoy khimiig 1959, Tol 4, Nr 10, PP 2276-2286 (MR) ABSTRACT, The extraction of reC! 3 from hydrochloric maid solutions by means of organio solvents was disauseed frequently (Refs 1-16), but no paper gave the stn*cture of the solvatee which FeCl 5 forms there in the organic phase. On passing HC1 through a solution of FeCl 5 in anhydrous isopropyl other Lorin ot al (Rof 9) obtained an Insoluble precipitate of the composition HFeCl 4& 2E (E - ethor), which dissolved on addition of water. There are no indications available with respect to the solvatim of the compound dissoLved. In order to investigate the com- position of such solvates, the dependence oftbt, partition coef- floient an the concentration of the extracting agent on di- lution with an Inert solvent and maintenance of all other con- Card 1/5 ditions was investigmteds This method is based on the fact that  Ertrzat4on of Iron Chloride by Means of Dibutyl Ether SOT/TO-4-10-17/40 the extraction is considered a chemical reaction: F034- H+ + XE 1-c- aqu + aqu org + YU2O---*'*ffYeClCXE.YH20org (org-organic phase ). If the concentration of the ions R+ and Cl- is kept constant and no polymerization occuref the logarithm of the partition coefficient must be a linear function of tha equi- librium concentration of the ether. In order to be able to maintain the concentration of HI and Cl-, it must be known$ how far the acid is extracted by the ether. Therefore the first part of this paper deals with the extractlon of HCI by dibutyl ether (DBE) and Py mixtures of DBE and CC! and DBE and benzene (Tables 1-3l Figs 1-5). The results indicate that In the organic phase the compound HC1.DBE occurs which is also confirmed by cryoscopy. Then, the extraction of INC13 with the same solvents is Investigated (Tables 6-T, Fig 4). On extraction from 10-n 1101 the trisolvate reCl VrHO1.3DBEyff 20 is formed in the or- genic phase. If DBE is diluted with benzene, the partiticn coef- ficient in directly proportional to the thircl power of the DBE activity, whereas on dilution with CCl 4 the partition coef- Rard 213 fioient decreases more rapidly than would correspon4 with the  ,:,rtraction of Iron Chloride by Means of Dibutyl Ether SOY/78-4-10-17/40 calculated activity of DBE. There are 4 ftgures$ 10 tables, and 22 references, 4 of which are Soviet. ASSOCIATION: Hoakovskiy kh1m1ko-tekhnologicheskiy Institut im. D. I. Men- deleyeva (Moacow Institute of Chemical Technology Iment D. 1. K-endeleyev) SUU11'170: July 2, 1958 Card 3/3  66222 SOV/7e-5- 1 - 4 2/45 AUTHORSt Pomin, V. V., Morgunov, A. F. TITLEr Kxtraotion T-Means of' & Binary Extracting Nixture PERIODICAU Zhurnal neorganicheakoy khimii, 1960, Vol 5, TEr 1. pp 233-234 (USSR) ABSTRACTr In the present paper the authors Investigated the extraction or uoPro, )2 and FINO3by means cf cyclohexanone, methyl-iso- butyl ket:;rLe, (hexone) and their mixture as wel: as the ex- traction of FoCl 3 by aeans of ethers aal their mixtures. i hm of the dietri- Figure 1 shows the dependence of the logari bution coefficient ::< -,n, the. of cancentratic-n S oC the extracting &gone. Th~, d,-iterm-ination was carried Gut at 20+0.20. It was attempted to extra.~-J. FeCl3 by means of diiso- propyl ether (DPE) and diisoazyl other (DAE). In the extraction of uranyl nitrate and nitric acil there is a linear dependance of the logarithm of o~ on the logarithm. of concentration of the ketones (Kt) with a concentration of up to 4 moleff/l of the latter. for the strait;ht ae,.,tlon it holde that o( - KSn acccrd- Card 112 ing to the fo--mat!cn )f tne solv&te with n =oleculev of the ex-  68i2z Extraction by Means of a Binary Extracting Klxture SOY/N--c 1-42/45 tracting agent per I molecule of the extracted substance* The formation of the colvates HX0,*2Kt, UO 2(NO )2-4Kt may be seen frem the slope ol" the atraigb6t. The solvate, HFeCl 4* 4DPE results in the eztr%,~tian .,,f F-C' whereas -In the case- Of DAE (n--2-5) I f- Z~01 colvates,(K-FeCl either the farma4-ion 1~1 4' 2DA.E and HFeC1 4' .3DAE) or a considerable change. of the activity ncefficients In the organic phase in a-seumed. Figure 2 Illustrates the dependenoe, of the distribution coefficiert upcn the composition of the or- ganic phases for the extraction with the benzene solution, af two extra~:ting agents. In all casea this distribution coef- ficient was greater than the, sum ot distribution coGcficienta of the individual components wherefrcm the formation of mlz~~d an~- Yates was concluded. There are 2 riGurec and 2 Soviet references* ASSOCIATIONt Koskovskiy ordsns. Lenina khimikc-tekhno1aGicheakiy Institut I=. Dt 1. Kendeleyeva "Order of Lenin" Institute: of Chemical TechnoloGy imeni D. I, Hendeleyev) SUBMITTEDo July 3. 1959 Card 2/2  rOHIM. V.V.; KORGUNOT, A.F. Jktraction of f4rric chloride hydrates with 4therz* Zhmr.uore. khin. 5 n*.6:1385-1386 Je 160, (KIRA 13M 1. Koskcmxkijv ord4na, Lenina khImIko-takhnologicheakly Inatitut in. B.I.,941delereva. (Xxtraction kChemistr1r)) k1rou chloride)  rcK im, T~ T. ; ~(QBMIOT. A~ Yo - KOIM T, 1. T. 0 Xxtraction of nitric acid with cyclohemum and, %*tfWl isobimtrl ketone. Zhur. neorg. khim. 5 A*-OZ1846-IS51 Ag (60. (KIJU LR91 1* Koskovskly khiaiko-takhnologichaskir, inslitat in. V. I.Kandolayeva. (Ketone) (Nitric acid-) (C~alohsxazw)  HO~NQVI_~.F.f FOMIMP V.V. Hyd:ration of complex halogen acids of metals during extraction with others. Zhur.neorg.khim. 7 no.WI48-950 Ip 162. (MIRL 15CO 1. Moskovskiy khimiko-tekhnologichesTcLy inatitut in. D.I.Mandeleyeva. (C=plex compounds) (Kali-des) (Etherc)  MOR3UNGT,, A.F.; FOMIN, V.T. Extraction of ferric chloride with othere and ketones. D"ndenc# of the distribution coefficient on the, concentration of ferric chloride. Zhw.aeorC.khLz. 8 no.20M-515 r 163. (MIRL 16t 5) 1. Mbekovakiy khImiko-takhnologicheakiy inatitut imeni D.I. KandwIsyeva. (Iron chlorides) (Extraction (Chemistry,))  rfa~1'400v#~A,F.j POKIN, V.V. Hydraticm. and solvation of ferric chloride durlrr, ectractlor, by nthers and ketones. Zlur.neorg.kbim. 11 no.1:226-1127 J& 166. (rAPA 19r1) 1. MoskwFkly khlmtko-tekhnologlchonkiy Inmiltut Irell' 11.1. Kendeleyeva. Submitted June 23, 1965.  "'U, I Varclmiu-i livis-I.-m 7-,O,~Lo of ste)rlnl:,, fr,q-:-wi ll-ite~-IrS. 17=. t---kh. no.11:38-/,~ IN 165.  DERINF, L.K. Development of shoestring sand pools in the F., layer of the tda horizon in the Pokravk& field. Geol. nafti i gaz& 5 no. 5:23-25 MY t 61 e - (FJRA. ItW 1. Neftepromyolovoye upravleniye ChapayeTakneft'. (Pokrcvkm region (Kuybyshev Province)-Oil fields-ProductLon methods)  MMUCHEV, H,L,l MDRGUNOV, A.P. Oil recovery from the layer or the; Fokrovk& field. Geol.neftL L gaza, & no.Stl3-16 ~4 162. (KUU 150) 1, GosW&retveWy- institat po, projaktirovarLiyu predprlyatiy neftyanoy promyshlennosti. vostochnykh i yuzhnykh rayoncv, SSSR L Neftepromyslovoye upr&vleniye; Chapayevsk Miniaterstva. nefty&nojr proVshIsanosti SSSR. (KAqbyehey Province-Oil reservoir engineering)  KC sugar. A. T. The dovelopment, of and proapectg for the trade life of the capital* Gor.1thoz.Kosk, .12 no*12v7-11 5 '57, NIRL 102- 12) l4amestitell predgedatolya Ispolkow Roakovolcogo Soveta. (Koscow-4ommerce)  mcamcvt B.I. Higher appm3dantions In calcii1ations, involving cart&Ln rot&ry mottious. Veat. Mask. un. Ser. 3c FIz., astron. 18 no.605-42 M-D 163. (IURA 17t2) 1. Kalradrit, antemattki, Kaskovakogo untvarmEt4ste.  L 18874-63 XW111)/Ms AFFrC/A3)/IJP(C) Acomiom jut, Anoo6584 3/0020/63A51/006/1260/1263 -1 AXWOM.- Vo1rjsov&,V'* X*j Korpnor Be IS TIMU Asymptotios of certain rotam sented by Academician r. Go. Petrovskiy# 8 March 1963-1 SOURM AN SM. Dokl&4*, ve, 151, not (S., 19639 1260-2-263 TOPIC TAWt motion, rotary motionp, nonpe:rturbod system, perturbed notion, freedom degree LMTR=t The present work is a oontinuation. of previou& inve3tiptions tV the author of systems with &single degree of freadcm.in which the solution of a non-perturbod systen is described by, an oncillating prooesso Amplitude currest: the, period ana other parameters were founfi for such systems in first or second approximation, The rotational processear ()f such systems are analyzed in this paperp by- previously deacribed methodso b.~r finding in first approximation the: alowly changing function X (E,t) describing in. first spp=d tion the ener&y of' the perturbed motion (where C is a smal I Ixaameter) and finding in the, same appro3imation. the slowly changing paramotoirs in the given universe. Orig. art. bast 22 formulas. Card  VOIMOV,. V.K.; MORGUNOVF. B.1, Calculation of steady-state resonance, states of certain nonlinear oscilUtorr sys4as. Dokl. 0 SSSR 153 no.3:559- 561 K 163. (KML 17: 1) 1. Hoskovakly gosudaretvenayy universitat Ia. K.V. Lomonosova. Prodstarleno akademikom K,M. Bogolyubavym,  .UIDSDV# V.M.j HOISkMO lt.%; !IDP.(YJM D.L.; O[EIUJOUSIKOp F.L. (Moscow) .9 IF 'ArMtotic methods of non-linaar viechartics associated vIV% the process of averagine report presented at the 2nd All-Union Congress on Theoretical and Applied Mechanicap Moscows. 20, Januax7 - 5. February 196L~  ACCESSION XR: AP4033629 8/018916410001002/0003[0007 AUTHORs IKorpnov, B. r. ting: Motion of charged partial" in a magnetic field r SOURCE; Moscow. Uuiversitet. Vestnik. fferija 111. IrLaLkA. astcanomLya, no# 2. 1964t 3-T TOPIC TAGSi: magnetic field, charged particle, drift equation. axLaLly symatrLe magnetic field. ABSTW=t A study him boon made of the drift equattov*~ for an axially symetric m&gn4tLe field It ir shmm tb&t for such & field the, equation& am grattly, simitlifted; as;uming 0: . I t . ' I & " U 41 jY & -fix- + vf ey't + M, or card 113  ACC&ISION NR: AP4033629 '~.M lip + 12 + 2ffXr -aff' + Ht ar at ft Aff 'Mr wt- - n' 6r, Per& r.4~m, z are the cylindrical coordinates of ths; guiding center, u is tba component of velocity of the guiding center directed tangent to the. line of forct,'v is the velocity componwit perpendicular to u. The system of drift equaciono is supplemented by an tquation for phase vhose. knowledge Makes it possible to compute the parameters of motion. of a particle. vith respect to, coordtnates and the velocity of its,, guiding center. The author obtains an. approximate. integral of ~recisa equations of motion #jk4 + t 'Y x ("Iff, ( ar Ar + Zk-' I"' 1 1 20 US Isin2a., Card 2/3  ACCESSION RRIe AP4033629 L The Lotal,derLvative of this time integral has the order of'w - A, numaric4l example it cited for investigation of the dependence gdNivodiategral on time- for an axially symmetric magnetic field., 'The author tbanks A. H. Tikhonov for interest in the work- &ad valuable Comment&"'L Orig.art., "Er 8 formulas. ASSOCUTION; Ufadrs. matwiAtikL, Hoskovskiy universitst (Department of Mathematics, Moscov'University), &Uz=rot 22W63 DATZ A0Qz 3OApr64 ENCL: 00 SUB CODE: GP 50 W 90vt 003 OT=t 002 Card 311  HCRGU'ROVF B.I. Complete compu"Attan cf the second Pmproxination for r.,31PAry motion. Test. Moak. wi. Ser.3tTLz.,, aatron. 19 no.lr23-29 J&-F 164. OURA MO 1. Karedra MatexatlkL Kaskovskogo universitet4.  Steady-state resomwea modis of cirtain ratarr motions. Dokl. AN SM 155 no, 2c277-280 Kr '(4. (MIRA 170) 1. goakovakly goaudaritsennyy univeraitet im. K. V. Lom-onosava. Predstayleno akademlijon H. 9. Bogolyuboyym.  VO b-III(Xt V. V,J I ltov, 11. 1.- Steddy-state rcrcnanc3 m-odeem or certain cacillat'rry sy:ttem-i. Dokl. AN S300 lra6 no. 1:5'G-5J .11,T 0(W.. (Vi L ?A 17: 5 ) 1. Moako.skly goivriarstwi-myy un!vsjrai"',-, Iz. M. V. Lomonasom. Predat.-tvIeno akademikca 11. N. Bogolpm)--trm.  71 -AARfal-' 5 V.- )~~Mov JT Q4 -lj;hff7-OOMM-toC 1965' 7 J,046 r-O 5v' W& -to a 64~ _1C5 It a v -irb f kon, tO;ttcrd.. re nm-, 'i:011k:k~j,' AwmiIibed- lq-~ -71" U" P) blF -_JjkL.113~ V~~Sly porioilio with y baying oia v Am .4-1. thic uTr'tf=f a smll qv~ DU+Admfd -7t4 4-Wu* of mat P) + 0 + -------------   VOLOSOV, VXI MOUNW, B.I. Asymptotic calculations of c,~rtmir. rotary motinns in thfi, resamnce case. Dokl. AN SSSR 161 nr).4~-1-30-;-1305 Ap 965. (KIRA ISO) 1. Moskovskly gosudarstvonnyy unlmrsitet. Stibmitted Mo".mber 11, 1164.  Pit tNm f=llca due to ro-tailou  la~ Tl,~ rg -o- -rvm"- Tit ~-J- ~av- -a V- Ma -;L-r-UT Apinv4MV; ,L Tti ihl~~ wid ~,ax a-r,- lo n.1 fn~ ;t rl -2f'T ox;,x es~, tily ;.lqcn FLT a t t u I T-'CTF-' FLl.-jVWW.LA16 M!W -V% xwi - Trfwi~vw- 3;-w k -Ar  MCF.GUMINvall'. Highest approximt1orx; in the calmlation of stationarY resonance conditions *f sme nonlinear syr-tams. Vest. Kask. un. Ser. 31 Fiz.v astran. 20 no.506-44 S-0 165. (MIRA 18ill) 1. Kafedra matematiki Moskovskogo univeralteta. Submitted APril 4, 1964.  HORGUNOV, B.I. Cal:-ulallon of the rotationitl Statei; of cert4in non-Ifacl, I trr.1 an systal-ts Itesto Kosk.un. 114r. U Fiz.,, astron. 20 no,,4t3J-80 Jl- Ag f6s,, (KIRA 18g12) I* Karedra matematiki Moskovskogo gosudaratvennogo universiteta. Submitted September 20,, 1764o  1635'7.66 EWT(d)/T/W(l) LIF(c) ACC NR: AP5025158 SIOUHCZ COM I WVM8,3/65/000/005/0038/00" AUrlrlRt ~brj%mov. 0. 1. . . ........ .................. 1I Dewirtment of Pathematics, Nsco* Universt!j (Karedra matematiki 14oakovskogo TITLS: JA In eviluntinj,the stntionary resonnnceB of vher ~tvro7dmmtions carlualn nnnltnear systems ',- 14, S')MCFi Wecow. Universit4t. Vostnik. Striya 111. Fiatkap astronomiyot, not 5S 496V~ ~Tanc TAGS#` zojIn4ar theory, motion stability MWR= t,~~4 -The suth"':"Nveloped a speciaLUxed scheme for the avsra&g method -an(Trotary states of.nonlinaar systems 'with one degree of freedom ani with coefficients dayandilng on n arbitrary parameters, Ybreoverp he stufted the rnspeetive stability problMs by means of transformations of the initial system which yieldei eacoM-order &j.proximatior. equations for 4sternining the coordinates of tht% stntionmry points. As a resulto seconA-order approx1rations for the stability conMitions of the Card 1/2 UDGs 62-501,3   MORGUNOVO Bale Upptotic analysis of certain rotary wtivne. Vent. Ynn'r.W). Ser. P Fir... astron, 20 no-415(Y-65 JI-Ag t65. (WRA 18 a 12) 1. Kafadrs. matematiki Haskovakago gosudarstveru,ago utilwirattnta. Submittod April 26, 1964,  VOLOSOT, V.H.; MORGUNOV, R.I. Calculation of stationary resonance vibrational modes of certain non-Haniltonian systsms, Vast. Mosk.un. Ser. 3: Fiz., astron, 20 no,4tEv6-89 JI-Ag 165,, (KIRA 19:12) 1. Wedra matematiki Haskovakogo gosudarstyanisolgo univeratteta. Gutaitted October 20, 1964.  VOI=V8 V.H.; MOVEDEVe GeNo; Use of the method of averaging In colvInC certain systems of differential squaticna with delayed argument. Vent. Yodk. un. Sere 3: FIz,q astron, 20 no.6:89-91 H-D 165. (PJFA 19:1) lo Wedra matemattki Kockovskop universiteta. SubmItted June 28, 1965.  2 f;~F_-c 1if.74 P -1" 1 jr,(~G~'T ACC NRt AP64)32272 SOURCE CODEr UR/00'.t,0/661170/002/0239/0241 AUTHOR: Volosov, K. Vol Kc RG: Koacow Stato Uni"relty Im. M. V. Loomonosor ( skovskir, gotudarstyennyr univer- itat)- ITLE: Certain atabilLtr conditions connected with the study of resonance. SOURCE: AN SSSR. Doklady, v. 170, no. 2, 1966, 239-241 'TOPIC TAGS- notion equation ration stability, perturbation theory TRACT: The purpose of this; work to to examine the system of equations describing st and slow motion, 1. a., a system of the.type V) + Y(x.. W. YOW + CY1(X. V) where c 7P 0 Is a small parameter, x I is a series of slowly changing vari- ables, y = (yj#...tyn) Is at series of fast changing variables, X, = (XIT, Xr'). Yt..,I= (Y91, -Y.(hwtu 2'... k - 0. f, _2, same at C 0 that the ayate a has a point of rest (a:CtjVC[)& The entral problem can Pe formulated in the fcalowing manner: Card 1/4 UD'W:  L " ' ':i .- ~,,' ACC NR.- APS032272 A(c) is the watrixt "It ebut . ... ;,.t A c,,. cL. + at, ce,c.,. set= ........ ....... Cal + Idelt ... C"'t + 'dwx CeNt ... seats j Y (-t :the tyubol indicates that the corresponding term La taken at C 0, if 4) and C= (v - pt# ... (J~C - *-- . 9.414' * -- : 4)-4*.). &Ile the function ft "tIsfies the conditions: TO O(et + e?lsl + CISIX). i f. a; IV, 0(0 + elst, + Ml. %r the case of n 2! w a L, arid undir the restrLctfons: A) sic + tit < 0; 6wic < 0-. r.m 2/4  7 7'~_iJ ACC NRa AP60322?2 ,c) all roots of equation Dot 0(p)) 0 are different and have a negative r*al part; id) .is the diagonal minor of third or-der of determinant of matrix H(O). At n x L condL- tions (c) and (d) can be discarded and at n I- L condition (a) is not required. At suf- :ficiently small t, it can be proved that with r4quirements Rl:L eigenvalues .A(c) of the matrix A(c) are given by Re X(O c -te (9 = constant 3, 0).- rar conditions I(a)-(d) the trivial solution of the general equation Cat a c 1) Is stible In the sense that for an arbitrary r i. a and -rj 1, 0, one can denou such co * 0 an6 yz 1, 0 that witt i All 0 S c s cg and to S t S to + r any, solution of the gentraL set of equations satis- i Tying in the Initial moment the condition I KOO I < YZ land fired for all i c2' ti~h to + r I at all values of t e + ri satcanea the !inequality IS(f) 14 yj. in vnerat. for r % t fe, yz Fir an arbi- Yt itrary 6 -v 0, -thAre exist each C1 , CZ , cq P, 0 that &LL 0s c s cg every solution of the equation k a A(Ox + #(c. s. 6) 3/10  AC~ NR: AP6032272 &tLxfyLng the condition [jr(loli